CR27895 A APPENDIX 1 RIG SPECIFICATIONS O.D. & E. PTY LIMITED RIG #22 DRILLING RIG AND EQUIPMENT TO BE FURNISHED BY CONTRACTOR DRAWWORKS National 610E double drum 750 H.P. rating 20" diameter x 46.7/8" long, two sets spiral grooved drum to 1.1/8" drilling line. 42" x 8.3/8" water cooled brake rims, National type b-2 air catheads, 4 hoisting speeds, 2 rotary speeds. Drilling control panel with air and manual controls for drawworks. Powered by G.E. 752 traction motor. The above equipped with model 3630 Baylor auxiliary drawworks braking system with controls and emergency battery pack for loss of power. Bell automatic driller and crown-o-matic device. Sandline capacity 12,300' of 9/16" wireline. ENGINES 3 - Caterpillar D379 T.A.C. diesel generator sets (Prime Movers). 1 Caterpillar D3304 N.A. diesel generator set (cold start). All engines have fuel and air safety shut-offs operated from driller's console. All exhausts have water spray spark arresters. SUBSTRUCTURE Derrick Services International Inc. Sub base height - 18 feet Minimum clear heights under floor - 14 feet Setback Capacity: 250,000 pounds Rotary beam: 428,000 pounds Simultaneous Capacity: 678,000 pounds. RIG LIGHTING Nelson explosion-proof fluorescent and high pressure sodium. For use in hazardous locations. MAST Derrick Services International Inc. 136 feet clear height - 18 feet 6 inches wide base mast with static hook load capacity of 428,000 pounds with 10 lines, racking capacity of 1 55 stands of 4.1/2" drill pipe. Gross nominal capacity of 600,000 pounds. SWIVEL National P300 complete with provisions for kelly spinner. Capacity - 300 ton CROWN BLOCK Derrick Services International Inc. 5 - 42" sheave main cluster and 1 - 55" fastline assembly. All sheaves grooved for 1.1/8" drilling line. TRAVELLING BLOCK National type 540G250 hook block combination with 5 - 40" diameter sheaves grooved for 1.1/8" drilling line. The above equipped with a 250 ton hydra hook. KELLY DRIVE Varco type HDP pin drive roller kelly bushing for 5.'A" hex kelly. MUD PUMPS 2 - National type 8-P-80, 6.’/I" x 8.1/2" triplex, single acting pump 800 H.P. complete with suction and discharge pulsation dampeners and Demco 5000 p.s.i. W.P. 3" shear relief valve. Powered by G.E. 752 traction motors. Each pump is charged by mission magnum 6x8 centrifugal pump, powered by 75 H.P., 575 volt, 3 phase electric motor. MIXING PUMPS 3-6x8 mission centrifugal pumps complete with 75 H.P., 3 phase, 575 volt, 1800 RPM explosion proof motors. Pumps manifolded together for mud mixer, desander and desilter combination. TRIP TANK PUMP 40 BBL tank built into shaker tank complete with 1-3" submersible pump powered with 5 H.P. motor, remote control at driller's console. MUD AGITATORS 4 Rudd and Hodgson 10 HP, 575 volt agitators. SHALE SHAKER 1 - Brandt Tandem Dual, high speed. DEGASSER Seaflo deep pit degasser. DESANDER Drilco 6 - 8" cones. DESILTER Drilco 16 - 4" cones. GENERATORS & ELECTRIC SYSTEM 1-50 KW Brown Boveri Canada generator powered by Caterpillar 3304 N.A. engine for cold start. 3 - 600 KW Brown Boveri Canada generator powered by Caterpillar D379 T.A.C. engines. Prime Movers. 3 Ross Hill Model No. 1000 S.C.R. cubicles rated @ 1,100 amps, D.C. continuous. 1 Ross Hill 800 amp MCC feeder breaker. All of the above mounted in air conditioned building. BLOW-OUT PREVENTERS - 13.5/8" - 5,000# WP shaffer spherical blow-out preventer, 13.5/8" - 5000# WP BX-160 flanged bottom, standard and internal H2S trim. - 13.5/8" - 5,000# WP Hydril single ram B.O.P., studded tope and button connections, no outlets, multi position locking ends, H2S trim and stainless steel ring grooves complete with CSO and 2.3/8", 2.7/8" 314", 414", 5'/i", 7" and 9.5/8" ram assemblies. KILL

MANIFOLD With 11 - 3.1/8" - 5000F.E. hydraulic valve, 1 - 3.1/8" - 5000 F.E. manual valve, 1 - 3.1/8" - 5000 F.E. check valve and 1 - 3.1/8" - 5000 F.E. manual valve. ACCUMULATOR Koomey Model T25140-3S, 3000 p.s.i. working pressure complete with remote controls and nitrogen back up system. Remote control pane in explosion proof (Nema 7) enclosure with 6 push-button control stations with indication lights for B.O.P. functions. Control system consists of: 14-11 gallon accumulator bottles, pressured by T315-25-3 electric powered triplex pump driven by a 25 H.P., 3 phase explosion-proof motor. This pump will produce 8.7 GP at 3000 p.s.i. with a 280 gallon fluid reservoir. CHOKE MANIFOLD Choke manifold National 3x3"- 5000 p.s.i. W.P. equipped with 2 Willis M3 - adjustable chokes with Tungsten carbide discs. Also gauge for standpipe and casing pressure. 1 Uniroyal RFG 8000, 3 x 8 fireproof mud kill hose with 4 inch male threaded ends. DRILLPIPE SAFETY VALVE : 1 • Hydril concentric flapper type back pressure valve with retrievable sleeve. REAMERS 1 - Drilco near bit reamer 8.1/2" HS 6.1/2" fishneck 7.3/4" O.D. c/w 4.1/2" reg pin up to 4.1/2" reg box down w/DIP light duty protectors. STABILISERS 2 - Drilco Ezy-change stabilisers 8.1/2" HS 6.1/2" mandrel c/w 4.1/2" XH pin to box w/pressed steel thread protectors. 1 - Drilco Ezy-change stabilisers 12.1/4" HS 8" mandrel c/w 6.5/8" reg pin to box w/pressed steel thread protectors. AIR COMPRESSORS & RECEIVERS 2 • Leroi Dresser Model 770A two stage reciprocating air compressors powered by 20 H.P. electric motors with 240 gallon horizontal air receivers. WINCHES 2 - Gearmatic tugger winches - (1) model 14 and (1) model 25. SPOOLS ROTARY TABLE MUDTANKS 1 - 13.5/8" - 5000 x 13.5/8" - 3000 double studded adaptor. 1 -13.5/8" - 5000 x 11" - 5000 double studded adaptor. 1 -13.5/8" - 5000 x 11" - 3000 double studded adaptor. 1 - 13.5/8" - 5000 x 7.1/16" - 5000 double studded adaptor. 1 - 13.5/8" - 5000 x 7.1/16" - 3000 double studded adaptor. 1 - 13.5/8" - 5000 x 13.5/8" - 5000 flanged drilling spool with 3" - 5000 x 3" - 5000 flanged outlets (23" high). - 13.5/8" - 5000 x 13.5/8" - 5000 flanged spool - no outlets (23" high). National C20.5 20.1/2" rotary table complete with master bushings. - tank system total capacity 920 BBL complete with integrated low pressure system with Rudd and Hodgson mud agitators and a poor boy degasser. Designed to accommodate shale shakers, desander, desilter and mixing equipment. SHAKER TANK Hole Fill Compartment: 44 bbls. Sand Trap: 14 bbls. Pit #1: 156 bbls. Pit #2: 140 bbls. Pit #3: 140 bbls. Sand Trap (Ditch): 10 bbls. 4O’xirx8' 504 bbls. SUCTION TANK 40’x IF x 8’ Pit#l: 180 bbls. Slug Pit: 56 bbls. Pit #2: 180 bbls. 416 bbls. DRILL PIPE/HEVIWATE 9,000 ft. 16.60 pound, Grade 'E* 4.1/2" O.D. range 2 Armco seamless pipe complete with 6.1/4" O.D. x 3.1/4" I.D. 18 degree Hughes extra hole tool joints with T4861 coarse particle hardfacing and internally coated with TK- 34. 2,000 ft. 16.60 pound, Grade 'G’ 4.1/2” O.D. range 2 NKK seamless pipe complete with 6.1/4" O.D. x 3.1/4" I.D. 18 degree Hughes extra hole tool joints, hardbanded and internally coated. 4 - joints 4.1/2" hevi-wate drill pipe with 4" I.F. pin and box tool joints. (1) -10' drill pipe pup joint. (1) - 20' drill pipe pup joint. DRILL COLLARS 6 - 8" O.D. x 3" I.D. x 30 ft. long with 6.5/8" regular box up x pin down. 24 - 6.1/2" O.D. x 2.13/16" I.D. x 30 ft. long, spiral with 4" I.F. box up x pin down. KELLY 2 - 5.1/4" hexagon x 40 ft. overall. 6.5/8" reg. L.H. box x 4.1/2" I.F. pin complete with shipping scabbard. FISHING TOOLS 1 - 9.5/8" series 150 F.S. Bowen releasing and circulating overshot complete with grapples to suit all Contactors drilling string. 1 - 6.'/<" O.D. type ’Z’ Bowen fishing jar. 1 - Magnet,8.1/2" hole. 1 - 8.1/2"

junk sub. 1 -12.1/4" junk sub. 1 - 7.7/8” O.D. Bowen reverse circulating junk basket. HANDLING TOOLS 2 - B.J. 350 ton casing elevator/spider c/w Bell guide kit - centraliser - spider adaptor plate, elevator links - and slip assemblies with bottom and top guides to handle 9.5/8" and 7" casing. 1 _ 8540-5149,13.3/8" H-150 side door casing elevator. 1 - 8540-5129,13.3/8" H-150 side door casing elevator. 1 - 8540-5137, 7" H150 side door casing elevator. 1 - 8540-5133, 5.1/2" H150 side door casing elevator. 1 - 8536-5307,13.3/8" single joint elevator. 1 - 8536-5306,9.5/8" single joint elevator. 1 - 8536-5305, 7" single joint elevator. 1 - 8536-5304, 5.1/2" single joint elevator. 1 - Varco type SMC-XL 13.3/8" casing slips. 1 - Varco type CMS-XL 9.5/8" casing slips. 1 - Varco type CMS-XL 7" casing slips. 1 - Varco type SDXL 5.1/2" casing slips. 2 - 8536-5202 ,4.1/2" 18 degree taper T-350, 350 ton Webb Wilson centre latch drill pipe elevators. 1 - #1801-1 Varco MSPC solid pin drive master bushing c/w 1809, #3 insert bowl, lifting sling and bit breaker adaptor. 1 - 1902 Varco #2 insert bowl for 10.3/4" to 9.5/8: casing. i - Foster model 7702 hydraulic kelly spinner with hydraulic hoses and fittings. 1 - Varco type MPR multi-purpose safety clamp, complete with case and wrench. 1 - 8536-5132, 8" O.D. C-100 100 ton drill collar elevator. 1 - 8536-5122, 6.1/2" O.D. C-100 100 ton drill collar elevator. - Quick lift drill collar handling system for 8" - 6.1/4" drill collars. - #15516 Varco 4.1/2" x 4.1/2" SDXL rotary slips c/w dies. 1 - 7638-1506 C-l slips 5.1/2" to 7" drill collar. 1 - 7638-5107 C-l slips 6.3/4" to 8.1/4" drill collar. 1 - 2.3/8" type TA-100 B.J. centre latch elevator 100 ton. 1 - 2.7/8" type TA-100 B.J. centre latch elevator 100 ton. 1 - 3.1/2" type TA-100 B.J. centre latch elevator 100 ton. 1 - Varco type SDXL 2.3/8" drill pipe slips. 1 - Varco type SDXL 2.7/8" drill pipe slips. 1 - Varco type SDXL 3.1/2" drill pipe slips. 1 - set Varco #15386 108" 350 ton elevator links. 1 - set Foley rotary tongs c/w Hanger and Lug jaws from 3.1/2" to 13.3/8" OD. POWER TONGS Casing and Tubing: 1 Farr model LW5500 5.1/2" high torque hydraulic tubing tong, complete with rotary assembly. Size range 2.1/16" - 5.1/2" O.D. Rated torque well over 10,000 ft.lbs. 1 - Farr model LW13375 13.3/8" high torque hydraulic casing tong, complete with rotary assembly. Size range 4"-13.3/8" O.D. Rated torque well over 20,000 ft.lbs. SPINNING WRENCH 1 - Varco model 19000 SW-30 hydraulic spinning wrench c/w vertical positioning right and left hand rotation self adjusting from 2.7/8" thru 7" pipe and collars. HYDRAULIC PACKAGE Delta hydraulic system capable of operating a drillpipe, spinning wrench and casing power tongs, hydraulic tuggers and survey units. With a complete pump and power back-up unit. CONTROL VALVES 1 - Griffith upper kelly guard. 1 - Griffith lower kelly guard. WELDING EQUIPMENT 1 - Lincoln - 300 amp welding machine. 1 - oxy/acetylene set. BUILDINGS : 1 - Doghouse - 10' wide x 21' long skids x 9'6" high. - Tool house - 10' wide x 33' long skids x 9'6" high with roof opening for tool entry, loading rail, and racks for storage of drilling tools. - Pump houses - 10' wide and 33' long skids x 9'6" high designed to house 8P80 National mud pumps, mission magnum 5" x 6" centrifugal pumps, pulsation dampeners, mud manifold and suction lines. 1 - Tool house/work shop -10' wide x 33' long skids x 9’6" high complete with shelves and work benches. 1 - MCC-SCR building - 10' wide x 33' long skids x 10 high to house air conditioned S.C.R. control unit. 1 • Fuel tank/pump room - 10' wide x 40' long skids x 10* high fuel tank (round 9' diameter) 12,000 plus Imperial gallons, with 5’6" long fuel pump room. 1 - #1 Engine house - 10' wide x 40' long skids x 10' high to house 1 - cat. diesel engine and generator (accumulator remote

system), and engine radiator. 1 - #2 Engine house - 10' wide x 40' long skids x 10' high to house 1 - cat diesel engine and generator, remote engine radiator, and change room with lockers and bench. 1 - #3 Engine house - 10' wide x 40' long skids x 10' high to house 1 • cat. diesel engine and generator, remote engine radiator, 2 electric driven air compressors and a kw. cat. cold start generator unit. PIPE RACKS 10-27 foot tumble racks. CATWALK 2 section 7'6" wide x 51' long x 3'6" high, with wood decking, stairs and bit ramp. MATTING : 1 set matting. WATER STORAGE 500 BBL - in sub-structure. FUEL STORAGE 1 - 12,000 gallon (Imperial gallons). SUBSTITUTES As required to crossover to Contractor's drill string. INSTRUMENTATION Totco type 50 weight indicator with National type D anchor and E-80 sensor, plus a mechanical G-600 type back-up weight indicator. Totco type 4 mud gauges. Totco tong torque gauges (remote). Totco rotary torque gauge (remote). Totco rotary RPM gauge (remote). Totco vertical pit levelling system. Totco mud flow sensor and digital stroke counters. Totco 6 pen recorder model 62-A. Totco 0-8 degree double recorder, complete with go devil retrieving unit. MUD TESTING Baroid 821 kit. JUNK BOX 1 - skid mounted steel junk box. RATHOLE/MOUSEHOLE DRILLER Fabricated. MUDSAVER Gavel Shorty with 4.1 /2" end seals. CUP TESTERS Cameron type 'F'. DRILLING LINE 1 - reel 1.1/8" E.I.P.S. drilling line. WATER TRANSFER PUMP : 2 - Mission 2x3, type 5" centrifugal pump with 10 H.P., 575 volt, explosion-proof, 1800 rpm electric motor. SURVEY UNIT 1 - Gearmatic model 5 hydraulic survey unit complete with 12,000 x .092 wire line. ELECTRICAL & HAND TOOLS One (1) set. ESCAPE SLIDE Geronimo derrickmans escape slide. SAFETY EQUIPMENT First aid kit. Stretcher. Fire extinguishers COMMUNICATIONS Radio equipment, 1 mobile 1 base Codan type 7727B equipped with 7 multiple frequencies, plus 3 Flying Doctor frequencies. CAMP EQUIPMENT : 4 - 12m x 3m - 8 man bunkhouses. 1 - 12m x 3m - Ablution/laundry. 1 - 12m x 3m - Kitchen/Cooler/Freezer/Diner. 1 - 12m x 3m - Recreation/Cooler/Freezer. 1 - 12m x 3m - Toolpusher/Engineer unit. 1 - Generator unit consisting of: 2 - Caterpillar 3406 G.T. 165 KVA generators. 1 - 3000 gallon water tank. 1 - 1500 gallon fuel tank. TRANSPORT EQUIPMENT AND MOTOR VEHICLES : 1 - Toyota utility. 1 - Toyota crew car. 1 - Payloader with forks, buck and winch. NOTE : Any of the foregoing items listed may be substituted by equipment of equivalent or greater capacity provided Contractor obtains Operator's prior approval to such substitutions.

APPENDIX 2 DRILLING RECORD OPT TOR: . &£ *** — .c ,q~; Y * V REPORT Nou 1 DAYS ■FROM SPUD; 1 - DATS:- -3-- 2400 DEPTH ‘SOM-» LAST DEPTH: C 24 HR PROGRESS: ^tLl PROPOSED T0.- V1r? 0 FUEL ON HAND: FUEL USAGE: DAILY COST: t CUMUL. COST: I SIT INFORMATION Bit Humber \ StM IXVm MO Type U\V4 IADC Code l-K-M Sarto! Number If too 3-MV 4hto a Depmoul Total Foot Hmm M WOO (IM) »l<6 0 RPM \5O ConcMton V-\-■T iMpaM Faroe — JotVotocfty OPS BREAKDOWN (hours) DttiUng W'l. Trippins H Surveys X Yz. Corins Tooting Ctrculoto Saatpto Run Casing Cementing WlroHne Logging Circulate and ooMKIon muS >’/x Rig BorrtM Toot BOPa Repairs X'k. y*. ' L MUD PROPERTIES Denary (S.Q.) S.5 f/CC Vtoooalty 3? Water Low M/SOmln pH /0 FWtarCaka mm PIMM Via. YtoW Point Sang to SoiMs to os to CNariMa Mf/l HardMM mg^ Deaanriar hm Dm Mor hn MyCaat 0 Cutout Coot S HOURLY OPERATIONS SUMMARY (0000-2400) Pram Ta Operation 00’° O4>°* ll&t holt. r >0 fc*a r<^«ur. u3«A<- r +• Porto 0 Rdojias O»v It” &K+, £;U\JO. /7°® ir* rtso uJrpxz +Z.*z> ft* Ci /xuUix. 2£>V Paow * V bxll c»|laz3 ’ ««* 23°° R'q4o cj*\ o.sr<4 d "I SURVEYS '* 67 /tty ‘I • al PUMP 1 UnarStie c *• Preaouro 8OO pal Annular Vol DP 7«Mn Annular YH.DC Jtotta SPM SCR CHEMICALS USED Type Amount - OPERATIONS AT 0700 PUMP 2 Liner ttoe fc IH. Preaeuta Soo pa*. Annular yoloF /mln Annular Vet DC /mta SPM LAST CASING SlM Weight Grode Joint* Length IcKay Consulting Services daily drilling report perator: ^X — — *ii- RIPOftT Ho.: - X DAYS FROM SPUD: — DATS: W » * T l , M | 4 1OW-S LAST DEPTH:—2ft!Lil— 24 HR PROGRESS: 2 PROPOSED TO. XZSP JEL ON “***»* - FUEL USAGE: - . - DAILY COST: * CUMUL COST: t , HUMS: B.H.A BIT INFOR MATION OPs BREAKDOWN (hours) MNutnbar Drteteg Um Titppteg MUa Survaya Type Cortes lADCCota Taattef HfWNvaMr Clrguiaia Sampto HOOtoa RwiCoetef Dtp»Si(PQ z Camanttef »'4. Das 4(A) Wteriteo Lotting TpttIM Circulate ant coMRIor mud 1 HMPP Rig Saratea WOS(M TaatSOPte RPM Repair* C»dMw b* u teitaaiFane \1V-U •SR Tte^^Say u k MUD PROPERTIES Dartatty (S.G.) W'oo Vteaoalty Water Lou 00/30 inte PH Filter Cake IMI PtaatfoVte. Yield Patet X Sant % SotMt * OH w CNorteaa mr/L Hartnoae mrA Deaantar In DaaMar tea DattyCoat 9 Cumul Coat HOURLY OPERATIONS SUMMARY (0000-2400) SURVEYS CHEMICALS USED Prom To OperaSon • at PL Type Amount co* w* * at FL • *lX^ n W 1O _ Co-<v^ . FL o4- ICA & • at FL M** JA * at Fl —z * V PUMP 1 Linar Stea In. Prtaaure paL Annular Vai. DP / FVmte Annular Vai PC Ft/mln SPM SCR 4 PUMP 2 LAST CA8ING L ■Linar Stea In. Stea w. Pressure P«L WaigM >»F Annular Vai DP FVmta Grade V.%5 1 OPERATIONS AT 0700 1 Annular Vat. DC FVmte Joints a5 1 \**3c VaIaA • 1 •PM Lampth 2.11-2- SCR Shoa Ofr'ATOR: - - W. , . ** _L_, REFORT NOJ 3 DAY* FROM SPUD: 2 DATE:— TT <400 r**QTM ° -SMO LAST DEPTH: M HR PROGRESS: X*^,**-. PROPOSED TO’.^lfS FUU.ON HAMO: FUSL USAGE: < DAILY COST: I CUMUL. COST: t _2EL k **_! REMARKS: B.H.A. <&4t>. BIT INFORMATION BN Number X Nm 8'^ Mak* Type erovd lADCCoda Hl7 Serial Numbar 887 1^—*ea *3* // •pSi tot 'Son. ft DepOt cut I* Total a. Hour* 1^. WOO Obe) W*5 RPM ZAO CondMIon XAZ toapeet Faroe *57 JMVefaoby ZOM i i OPS BREAKDOWN (hours) DriMap 7*4. Trippin® *-'4 Survey* y?- Corins Toarin® Circulate Sample RunCaain® Comonrin® WtowSno lo®pn® Circulate an® aondltlon mud RlfSenrtee ToetBOPr ZV* Rapabi kJ/DpIt Ob 3%. 1 *x 1£1 Vx MUD PROPERTIES Density (*.G.) t.t ®/c© VUeooKy A7 Water Lou ec/SOmto pH JO-5 Filtercake •« MVR Flattie Via. TW Point Sand T< Sollda « O« % CNmWM >5,00© mWL HardneM •ft£o «®/L Oaaendor 7 In DeaMar 5 •" Baty Coat » U5Y5-

•o CumutCoat • H79T a HOURLY OPERATIONS SUMMARY (0000-2*00) SURVEYS Prom To Operator* 1 • st 37 ¥ • at w* M** (W- M.’tJcu© &P* or ft* b _if* ' t A<ZM,r hiAoe- «AiS • at • al tfcu. Pa<ASO7» jltrij fta.A*S ' al -* ^Ua:£U 206* 15^6 ft I » at (58* /6* H«ku o. 8 4 fl * RT7 jD*cfc<ri* 4 * 4^V° O'^S PUMP 1 /0“ AcflA.r HyflJUoL'r- HbSO Unerftae 4 K K>1* PYMOrt- Cacks Preaaura $Ob p< -p sKLLao jaIoo*. Annular VaL DP ’*A ri " /?* l3°<> fthP L.ks Annular VoL DC 4U 7"* 13* W* tf«ss*n>. 7o<t* &aq. a>u BPM JOO -+ R^/U SCR - /<f©0 16** bei II ©jt S^ml *f>a£,k. • /<» /VKrv*. F.I.T. -u « ttG. PUMP 2 Awoc i>; l( oAewi ft Kk - km 1* Liner Site in. 1 u-m /<. (iko. • Fracture A f— Annular VaL DP / min OPERATIONS AT 0700 | Annular Vet DC a-L^aA <*+ /.io**.. 1 BPM t CHEMICALS USED Typo Amoum Scu /Bo C*o$h'c, 1 LAST CASING Mat WeipM 3* trr Grade l<55 JoWa IS «* a a DAILY f BILLING REPORT W v : C. w 1 REPORT No.: - M DAYS FROM SPUD: DATS: ~ DEPTH LAST DEPTH:— M HR PROGRESS: PROPOSED TO: PURL ON HAMB- FUEL URAOS: DAILY COST: « CUMUL. COST: S REMARKS: B.HX S BIT INFORMATION R> VR X Sko &*>- Maki 'JpCA.I Typo tXbMiT tAOCCe* H-X-7 Serial Numkor ea?Mx Nandaa Vu Wiki- 3cm* bopStaul XV ■Toki 7«»J.K How 023 WOB(N0 */xs RPM IIP OoaMBm XU tmpoat Poaoa Jal VatoaRy OPa BREAKDOWN (hour*) DrtMn* Trtppmf Survoya va caring T«Ma* Clrculatt Sampto Run Caakg Camenlln* WkPkMLftwln* arwlMiM wvRwinvn ERM Rl* tanka ‘'x Teat BOPi Rvp^v Hu-S. MUD PROPERTIES DtMliy 7 •/« VWeoefty 33 Water Loee M/Xmki PH 1.5 FfktCaka M PkaSaVB. H YIM Point /Z Sand TC * SoMa •3T u Of u ChlOtMM <7,ooo MSA. Hmsam* 3UO ■

*L OtMMcr VY kn Daettar zw hr* DaSyCeet • X53K <»• CumutCoat », 7?M., •» HOURLY ■OPERATIONS SUMMARY (0000-2400) Prom To Operation 60* bY*> fjp; Il akeA^ 6^l’ kolc 4b ***/ / 5oaj«v R<£Xr HAS. RfcP L>e W* Ns |( oktoJ * 05* V* H’L.S* f$bP Mac, &’•... br*U dUtnX’ Ofclo 67— Au • Struiou 07— Zi** b&M Q^JaA Z SPAMyf. -- OPERATIONS AT 0700 SURVEYS 1 » 5Y<,-8 Vx ** Ho . K» •- ?cv • * • at • at IX £? 3<xk*/c?r PUMP1 UnarStet kt ■armure /OCO Mt Annular Vai DP «<23 Annular Vel DC IU * '— SPM |OD SCR feS/ *r$b PL ■MP 2 Unar Stea k. Praaaure pu. Annular JftLDP Annular Vat DC / Jnix\ RPM • • • CHEMICALS USED Type Amount KCk /MO (XjsA’/a- M 3 LAST CASING Slu <0't WalfM 3V Breda MS Joint* 15 tangtli 1« t PrtE 01 F>o« M WALCOTT FAX 007-114032 i McKay Consulting Services DAILY L..ILLING report ItL WILL: nfta-gCTi r- <_ REPORT No. , OATS FROM SPUD*. £ OATS: \LsJ1H 2M8 OEPTH LAST DEPTH: . 24 HR PROGRESS: — PROPOSBD TO. FUEL ON maip- - fuel iliAOL - DAILY COtT: |_J5U£lSL CUMUL. COST: S23M£k. REMARKS: ,— •—»————————— m B X -A. SAttC — BH INFORMATION IlNwMr 1- M» Mata ■■VAUU Tfp* ertQrt MDCCW* q-l-Y- Serial Nw^ar Noxriaa XvH Orss DW*wl XA/ TaW HMV* WOO0M RPR ,w ta> ClR—H w tapM'Pwv* 4^ WtVataafty lo<* OPS BREAKDOWN (houmj DrftSng Titpplnp K Swvap i-r Carta* TaaOng Ofariata Sampto RunCeaMg CMwanUM WtevBfM Loggtt* CtroWaUMW hmm nw MgSarvtaa Teal SOFT Rape** vX £kLSUM MUD PROPERTIES 0Mrtv(*.aj vtMoMr r A3 WmrUM v/A owipmpi pH <•€ PMwCaka "/A PMeVla. YtoMPWM 11 SaM 1“r ' kM 44 * OP _ % CNMM '1,000 •0' 1 Hriiiii 3LO "•* DMMfrr ** DMRM 2.4 I" DalyCatt • low- CmMCpM .» HA-,. HOURLY OPERATIONS SUMMARY ■(0000-2400) Pram Tn OparaWn OO** u«* OfcALUVIr AMWAD MOLE /C/Ja/TEA AS.IU.ffi Semi. tO2Ra* ro £a*/v4/)L iPVlATifM/ 2T* XX* GitCUf^rE L AftEFoEM IO ArO. artel Ttlf /Mme »** JjQPP OPJii- AMfTAf) »x w * v?ofi. ( <m & OPERATIONS AT 0700 OL1U.1A/L. ■amra^^ iXlo* xoiy i?xa, iZ/A SURVEYS CHEMICALS USED 3* • “ ioI’Jm TM» AaaWM e -*nUn

tct LD <«<• “ HWa. cAMrr. «WA G 4* •“ EtUl 1 1° •- f PUMP1 UnarStw u *• Pranwa lOOO ** ■Aanaftr Vai OP u r a* Ammmw Vat DC W>L A* PPN •01 SCR - PUMPS LAST CASINO Una* Maa M. Mm Fr— mib P* WalpM Aamwr vyktf , z FVWn Qrasa I65C Aamwr VaLDC / JoMW x-r •PN Laaptti WXL SCR **w ... mi OPERATOR: — WfLU-£to±YIi^—- REFORT No.: I DAYS FROM SPUD: 2 DATE —i-L. 21 240* DEPTH ^7/ LAST DEPTH:, 34 HR PROGRESS — PROPOSED TO: <7 5 ft PUr ^N mahb: FUEL USAGE: DAILY C0* T ‘ < XS, w CUVUL. gQ«T-1 REMARKS: B.H.A BIT INFORMATION OP* BREAKDOWN (hours) MUD PROPERTIES •It Nuabar 1 DrMng XX 7x Density A* B*m Tripping Vbcority St Mak* Jb/cj Survay* 1 '4. Water Laa* /D oc/MaHn Typo CTfT'7 Cartrtf pH 7-5 lADCCto Tatting PMerCto f /3A awa SertOi Number 6171* Ctreulat* Saatpb Plato Vb. L NktflM 3*91 Ran Caring TltMPto t Dtp** 3<x* Camenhng SaM TA % DapMewt ' /Al I WlreRne Logging Soto S-*> % T< im.l Circulate and aondHIon mad OK Hrara 70 Rig Santo Chtotot /?. DOb atg/L WOB0M) Tab BOFa Hartoaa XSo mg/L RPM 7© Repair* Dtaator XV hra Cafttoan Darihar av Rra latpaet Poroe N5<? DaftyCaet • NS7T- •a Jet VatooRy /0*Y Cum til Cab • I3AE3 * HOURLY OPERATIONS SUMMARY (0000-2400) Pram Ta Operation &><*• Ilina aXa*>A fcT*? 1 H»k. yLlH. "3 V, SURVEYS CHEMICALS USED 3'X/ • m /X77 Type Amount X*a. •» /3xg Kcu /oo 1 Vv '" /Vox 3 * at 0S-I A • ai ZW * at PUMP 1 Unar Site L » Prtwurt //6O P* Annular V«l. DP M-5 ■Annular Yal DC U>4» ’"Vmb SPM /oo SCR 5o/ A75* PUMP 2 LAST CASING Unar Stea h. Size <)«/, Prataurt P* Weight 3L Annular Vai DP / JMM Grade K5$ Annular Vai. DC Joint* JIS 5PM Langth :ijl. SCR Ifi/ 3V> Shoe lift. 3 OPERATIONS AT 0700 AERATOR:—_ WELL REPORT No4 1 DAYS FROM SPUD: 2 DATE:- -H 24M DEPTH LAST DEPTH:._E£2J 34 HR PROGRESS: PROPOSED TO: F ON HAND:__1__ FUEL USAGE: _=r DAILY COST: S CUMUL. COST: t REMARKS: bTh?a. SA t V& «Jo. . r V Ifr OcT St*l. . BIT INFORMATION Sit Numbar X S sue 00 8Hu Mate \Jo^J N’T Type STOW ATfaz. iADC Cede H-t-7 S-i-7 Isdal Number £*Ux Noutee 3pio Ospthin >5 vo r ‘h out /M tbrt /a.35.a 3t Hours 7t WOSOba) 30 RPM 9o t5 CondWon Z-3-I Impact Force *<59 ft? JstVsteelty low OPa BREAKDOWN (hour*) Drilling 15 Tripping 7'< Surveys A- Corins Testing CWctdoto Sample Run Casing Cementing Wlrelne Logging Circulate and eondKlofi mud Rig Sendee Teel BOPS Repairs MUD PROPERTIES Density 9.x Viscosity HO Water Lota ccZSOmln PH 9.5 Filer Cake '6i "" Plastic VW. 7 YloMPeM /O Sv* TR. w Solids 5X * Oil - % Chtortdss JU. JOO "SA. Hardness «•*- OsMndsr /C **• Deattar Zfc *» DaSyCaat » /.ZV3 — Cumui Coat L'IxSifc- HOURLY OPERATIONS SUMMARY (0000-2400) From To OperaSon 00* /*• tall <>.kU ax." k»k ujiK / S^oita, . /O°° /a*° +r.>- /> /$•* "Tri 0 *W~ b'.'f ckvi^l. Se*\« “takt kale. jMteJ /6/m. &|l liAx . heki!) oo 6> * W tU.i. '**^skeD -** r«A~«J /A** 9b -f? II . /ft- h/»ff 5K kill . OPERATIONS AT 0700 SURVEYS IK •* W55 * at • at at * al PUMP 1 Uner Site U In. Pressure /vro * Annular VeL DP IfQJf '"/mtn Annular VeL DC 433 SPM 95 •CR CHEMICALS USED Tjpe Amount Keu Ca^sh’c- 3 os-r ( 2. fix U 3 PUMP 2 Uner Size In. Pressure / * Annular VeL DP / /min Annular Vol. DC /mtn SPM SCR LAST ■CASING Stao ?«'« Weight 3LfW Grade X55 Joints X5 Length Shoe Z7»<4> McKay Consulting Services DAILY DRILLING REPORT OPERATOR: * wen. * I REPORT No.: ft DAYS FROM SPUD: ft DATE:— MC *PTM 17 LAST DEPTH: ifrlV- 34 HR PROGRESS: PROPOSCO Tft XtftO FUEL .4 HAND: - FUEL USAGE: DAILY COST: $ 30 1 _ CUMUL COST: S 3»3, ( YB REMARKS: BIT INFORMATION SR Number 5 Stea r'x Maha V\*X Type | lADCCodo 5-1-7 i Bartel Number L5o MX j Nocxtea 3 * id | Depth bi ' ol <ul /*/ . Tote* /B<» Mourn ilt'k WOE

(MN 3ft RPM 75 Coftdttten IM Impact Force JetVNocHy nt OPa BREAKDOWN (hour*) MUD PROPERTIES DrtlHn* Ai‘-k Dene Ry 7-3- Trippins Vteoooay 3fi Survoya Water Lorn /O ac/Matb Corin* pH Y Teatint Pater Cake - Circulate Sample l'/x Ptaattovta. Y Run Carte* Yield Petal It Cam ontln* Sand TA WboRne Logging Souda S’- * Clrculato arte condition mud os —— % RlgSorvteo ChtoddM n, 5o<» BA Teat SOF* Hardnote XVO Ropafca Datandor XY■ bn Dealtor AY bn DaNy Coot •xaU-** Cumul Coot » ./4. S»O- on HOURLY OPERATIONS SUMMARY (0000-2400) 00* a.lveo^ kola- Ulf 1 -< • CkVc.aIoA’A-O Up bo“t*t2y**S kol< 5a.^%.OUs cct /5tf(p * IgIsC . L . From T« Oporabon SURVEYS 3/ v JU5Y al at M at al ■PUMP 1 Linar Size t In. Preaaura /5GO pH. Annular VeL DP i/6- Y ^/mln Annular VaL DC 63. 3 *¥mta SPM 95 SCR H5 / 315 CHEMICALS USED Type Amount KLk 7o Ca.us4*t u X 05* 1 1 X Pm. Lyf 7 • OPERATIONS AT 0700 I . Y 1776 a* * PUMP 2 Liner Slat In. Pre** uro / K Annular VeL DP / /mtn Annular Vol. DC /mta SPM SCR Vo ftiSo LAST CASING SUa W’ Weight 3S PPF Grade K55 Joints 25 Length ATA.X Shoa OPERATOR: — ; p- WELL: - •WO* M ®“ 3 DAYS FROM SPUD*. DATE:— 5— l^ 'SFTH /S£4~. 3 LAST DIPTH: _1X33 34 HR PROGRESS: PROPOSED Tn * f O FU ON HAND: ' - FUEL USAGE: . DAILY COST: t AS, CUMUL COST: S MC j B5Y, REMARKS: BIT INFORMATION Sit Member 3 StN ttaU Type Rrj xx MDCCede 5-i-T |«rWNumNf L$oNx Nootao 3X20 Dog* ta /£¥© D out XV Tom 315.5 Neon >rt.5 WOSpbt) 3S RPM 7o CendPfcm w Impact Feme 5*3 MVttoeay -Jil OP* BREAKDOWN (hours) Drifting AX Tripping /X Surveys Coring Testing Clreulsle tempi* Run Cosing Cementing WlroMno Lagging CSoviate end oondtito* mud Rig Sendee Teat BOPs Repairs MUD PROPERTIES Density 3-X VteeoMty HI Water Lou /6. S eWSOatta PH RRor Cake Vai. — Flattie Yle- t Yield Fatal H Sand IX % SoUde 5.X. * OS —“ % Chlorides 15,000 *SA Hardnoee *sa Desander Z1 *" Deritier X3 >» DoSyCoet • *.fclt“' Cumut Cast » H.SeA-®* HOURLY OPERATIONS SUMMARY (0000-2400) Pram To Operetta* <50“ mj>eaj 8V KoU. I *33* 4?.’o b** k +L /JfAdr*. Htk RaaJ. £¥•* tell A keJ ic -4 OPERATIONS AT 0700 ft C T FAX X96S2 RCE as McKay Consulting Services 4AT<Nt— ,y — WtLU ^F/W&7?y -Z, RSPORT No.: Z* ■DAY* F*OM MUD: Zfl DAT*:—Z*- * ’ MM OOPTN Z*XdP, ^__ t-AST DMTK _Z/5SE£ 14 HR WkOOMM ZrftffZ— PROPOSED TO: A^Zfg— FUtl OK HAND; FUEL MAO*: DAILY COST I Z CUMUU COTT: * 70^ AMAMA A,** DAILY DRILLING REPORT IT INFORMATION ■ ■Mton -Z im >»/ MW Type JXTJS uoccn toWNmtor NAUto 3r~ pMOMt/r T-ioM^er Nm ‘7*>S woo cm -4? RPV Sf Can—ao bntoton -T/Z nt vwani /YP B.H.A. ‘ir'GcLfai /'MM J OPa BREAKDOWN (hours) o—n* J/ Triton* itmn 0.* C«to Taon* Ctreutato tonpta RwiCaaln* CamanOa* wiratoe low** Qttoato an^ AIM ID* tovtn Tn BOPa Rapatra 1 MUD PROPERTMS DwtoyN-W)^ </ 9** Vtanetty wan Ina #. JL - 1 "** PM FitoCto //U> M PIM««k a naWPtot S' to*d Fl? % Soto 4**^ % on % CNottoa W6 •* t Hordnta Me «*A D«HM« in Daato *& in DatrCMt • ^z>Z CwhmA Cwt HOURLY OPERATIONS SUMMARY (00002400) Prwa Ta Oparatot At •* ar*2 "//*£*-r*WL /** mc ' 2fe_ z/z/ r'e Seifrr ZZ/z, #r z/U7> Jw &*'*<. f7> ✓'fcrt* 1st* ?/f?9 jw r *r /i 1 J^/KA sfF£? TV OPERATIONS AT 0700 SURVEYS // •* /?J7*9 • at pl • at n • at n • at Pi * at pi PUMP 1 Una* *ttt Z A Pre Mura p< Annular Tat OP FVnUa Annular Vat DC FVmfa *PM »CR CHEMICALS USED Tyn AawM ZJ <~wrr>c z XV* 7a ZJ** z Z’XTC^ PUMP 2 Unar •!«• Z- PfMiurt Z» ? p< Annular Vai DP Annular Yal DC <3,3 W" 8PM SCR jtS/jeff LAST CASING »lxa Wat*M £ Grade fTSF Jointa ^S- L*n*tb Shoa ?2*z/ ACT FAX 389852 page ei ''PtRATOR— i. zTfrf^SErrzc report No_ C-/~ days from bpud: Z/.. OAT.; 7'

S' W Moo MOTH o /^/y LAST MOTH; Z^ZP-f, M HR pnoCRSSS: Z/-P- 4. FROPOM0 TO RUEL ON HAHO /P, /<’<’ rueL USAGE: DAILY COST: I * CUMUL. COST:» . (u .„. //zfy **r. **"•> " r»r*e <we b.h.a. J,'' Js&lf r^crj~nr jrtijo vsy re ) Izze/.Z^»-»> •IT INFORMATION M Nttmter 3 4* Rm Mate sr* Tjp« r?77 lADCCada r-f-T hrWNiuter </2MA Naulae 2r/V '•peiM(PW/v S3** Dep*atd(FO TMlFMt 3*3 Naan s>p WOB Pte) /z RPM <*2f CoMMte Z-y/^ tepMtPefw yz/ JetVtfacPy OPs BREAKDOWN (hours) Driltef THOM"® Survcyi Corina TettIni Ckcuial* tempk Run Cooing CwMiMlnfl WlraMna LOfltfng Clreuiato *M oondMan mu® /i Rig Santee Tati BOP's Regain f MUD PROPERTIES OenoAy (B O.) .*•*' 9/ce YtkCOOIty 4c* Water Laaa fi, j ec/SOmls A* Piter Cate s PVB Ptatee vis. // YlaMPelRt s/ Bted r# Soite U OB U ChMte •B* Hvtea B* OsMitdar /# bn DasStor sf hrs OstyCsst J Zz^»y> U»t9 Cuate Cost 2 -■i'C*? HOURLY OPERATIONS SUMMARY (0000-2400) Fraat Ta Oparatton A#/*' r* %A* /***✓ CffC. Sc/. /Z'*S^St4fr'4>' r zZZZ 2i*i Z Afpcew* J't'X't'**' 2J** S3** <?*&**£ Ser • SURVEYS *0*73*4 • at Ft * St Ft * at Ft * at n * at pt PUMP 1 Lintt sue 6 - Frsteum PM Annular Vai. DP FVmte Annular Vat oe Pt/ate •PM •CR CHEMICALS USED Type AfMURt sec Z<7 ef+yrsc 3 PJOC< &. ,* Sacyrpc so OPERATIONSAT 0700 PUMP 2 Linar Mt s *• Prvaaure z>** »" AnmHtf Vat op Annular Vat DC ZzTVmin •PM & •CR 6*3/4*46 LAST CASING •tat Wat®M .1* Grade 333 Joints S3 Length J.^2. <?. ttee oJ/tf. * xPtRATOR 35—7""^ WSLL- S)1*f£er/e / ■REPORT No.; & DATS FROM SPUO; DATE; ' * -Z** mor depth <3 z/y_ last depth- n mr progress —££ proposed to. ZAC - PURL ON HAND: ^^3 ^*<P_ FUEL USAGE: 4* DAILY COST: S CUMUL COST: I , r/< AM— rimaaki -»— - r _ 4/Ayzw b.h.a.^^; XfT^ZZic _ Lrza^c_^z/Zpzz BIT INFORMATION HMumN' * M*e State Arc T»te trrn lADCCaOa s-J-7 krWIMte 4A11AO WMftte Jxt* Dte»»(P0 D«p» teM <PT» s'* Ttelte^ fj Hmm a/ WOS (IM) Jf. RPM CmiMMm taRWtPom JttVltttR| 4£J OPt BREAKDOWN (hour*) DrNtof TripjHnf Ji Survaya < CwNf Twtttf CkeuUt* Sample RUACMlAS Contetfinf VWHIm losses CkVUtateate KteMftllN Al* toteaa Teat BOPa Repaira MUD PROPERTIES DwMy (SO.) S'* VUcteAy Water Lott p cc/Mten pH 9. X FMorCMt J. — PlMtleVte. /z YleMPeM & Bate rs BoMa S.J % OH - w CNofWH Z/, «**•' mrA Hrtm* V<p IRf/l DmmN lw» Dn*t«r <az hn Daily C«M • SP'P Conte ✓Coat » J. 97-2* HOURLY OPERATIONS SUMMARY (0000-2400) PrMM Ta OpartUan A? 4 * M 9 * C*e^r. re re Af OrMr/tfc. Mfr# a ?0 m re jfrrs* /Z&rf*vf70**rt MA? /fee Z«A> c^c, e Q j. /?*> AW,/, ro 2/S& SURVEYS Z • « * M Fl ' « Fl « M Pl • tt Pl • M Ft PUMP 1 liner Bile £ m. Pre«aure p«L Annular Vet OP FVmln Annular Vai. DC FV«*i $PM SCR CHEMICALS USED Typo JtiRMnt Act- -a er- , / * & J srsee z y C**f 10*7} j* OPERATIONS AT 0700 PUMP 2 Liner Size z ».. Prriaure p*- Annular Vei. OP 4*P/rX Mmifl Annular Vet. DC fy. 3 WMr SPM />• SCR LAST CASINO Ska Weight Ottee s/s Joint® A3 r Langth •W, SAM otfP. Z McKay Consulting Services DAILY DRILLING REPORT OPERATOR: , /ELL; Z REPORT Na: Z^ DAYS ■FROM SPUD: DATE;. 14M DEPTH — ZT LAST DEPTH: 24 HR PROGRESS: PROPOSED tq- FUEL ON HAND: FUEL USAGE: DAILY COST: I CUMUL. COST: S REMARKS: XrC4!>1FXr.r ' _ ^7^ ml/z .rjver.A'r j/XX H'r, •IT INFORMATION Stt Number & Stae IM» xxc ■Type 0TSSJ iA»e ovj* X X- 7 Serial Number t/J33X NOCDU 3r/e Depth In (Ft) Depth out (Ft) TetetSeel^ STS Nour* WOS (Ibe) RPM S* CendMoa Imped Perce Jet Velocity "9 OPe BREAKDOWN (hours) Drilling -?y Tripping Surveys i Coring Tooting Clrcvtete tempi* Run Casing Cementing Wire Hn* Logging Circulate end eondition mud Rig Service TeetBOFe M poire MUD PROPERTIES Density (S.G.) «. ± * VloceoHy WctvrLoee Z/ ec^Omin pH <?> ,r

PMor Cake y mm Ptaetfc Via S£> YMd Point Sand rs * So Ude X J> * 041 * ChlorMee *2 < zx-r* "•S' 1 - Herdnoa* mg/L Dseandor Xf* *• Deolttor Iwe DtPy Coot s 3*7? Comm Coat • JJ7'S HOURLY OPERATIONS SUMMARY (0000-2400) Prtai To Operation A," /o ‘° fi/ fl - 22Ofi, /fa Jxxtxrx /O J ' fwp Xiy JJ'W, T / T T y l 703* tf’/irc> 'J 4 r OPERATIONS AT 0700 e/<r sr CHEMICALS USED Type Xec 70 Wsr/e 3 7 fayxte 4* x/W/m r LAST CASING Size Weight Grade XXX Jolnte Length She* operator:— _ F - 4ELL:-^^!^£Z2£ REPORT Nqj DAYS ■FROM SPUD; OATS: ~ SSSO DEPTH LAST DSPTH:_^=^£_ 24 HR PROGRESS: PROPOSED ™ FUSL ON HAMP: FUEL MIAOS: DAILY COST: 1 CUMUL COST: I REMARKS; rfrW £ ' rj ’ >' ST* J ' r s?^ 'G' f £ £>(~r. £*4'*^ BIT INFORMATION OP* BREAKDOWN (hours) SM Nwntoar & DrMtef ZZ SIN Trtpptas SUM #70 Surwya T»p* srrjj CSrtRQ tADCCoto M7 Ttaltef SwMNumSn Circulate Sampia X Niiibl 2*70 Ruf Caatof OM) In (FG/r Cementing OiplS out (PR/*? /»c Wireline Loafing TotNRSt-^ V Clrculft* and oondKton taite Mem Rl* SanrtN WOE (Ito) 4* TmiSOP** RPM Jo Rapairt CaUBm iMSSelFm JHVNmitF ! ! MUD PROPERTIES ■■DcrMlty (S.G.) Sfec Vteooetty Water Lam 7'4 cc/tomm pH Piter Cato an PtaaSe Vte. 9 YleMPatet - /' Sans « Saito S.7 * OS • th ChterMae a npA. HwdRM* /Je> mf/L Deeantor w ■Iva Deatear ha Dally Ctot » Cumul Caal * z<r/^r HOURLY OPERATIONS SUMMARY (0000-2400) Pram To OperaSon aS" ?? ZZf7*! erJ» e/*C *r- Ziffr &7J<> ##*** r& e/*e f4/vr<e* WO SURVEYS • el — Pt. • at Pl. • at Fl. * at FL " at Ft al FL PUMP 1 Linar Stea z *• Fraaaura PH- Annular Vai OP Ft/min Annular Vai OC FVmtn SPM SCR px4/z CHEMICALS USED Type Amount rt<L 4»JT e^^rryr fa. r'fr 70 <rr?c 70 0S-7 7 OPERATIONS AT 0700 *f cJj’Ww- za>/z»^‘ rv x**x ^7/7 PUMP 2 Unar Stea x *• PraMura Z</jr <“• Annular Vai DP & Fvmm Annular Vai. DC Xf. 3 Ft/min SPM 95 SCR LAST CASINO Stea Weight .rf Grade Joints lanflh a/c.z Shoe a yf> 4 ACT OPERATO R: ALL: Z. REPORT He. /J" 1400 DEPTH tfy/f t AT FUEL ON HAND: y J $00 FUEL USAGE: +390— REMARKS: Z DAYS FROM SPUD: — — DATE; 14 HR PROGRESS: — PROPOSED DAILY COST: S _ CUMUL. COST: $ J* 3 B.H.A. &f**f*, rswfa. 1 zoy. I BIT INFORMATION tn Number 4* s Stea Si Make Typa ^rf.n <wr IADC Code SW M7 Soria! Number sjm </*/*> Noextoa Jr so ** L ’»oplhln(«)/^ J3t! ASfA Depth out (RV* *3fO f^c Total Peety^ r -- M>7 at Hom 3 ?* / WOE (too) *•1 4>* RPM So A> COMWM S-++A ’ z/Ptf Implrt Force as MtVeloctty | OP* BREAKDOWN (hours) Drtltog Z2 Tripping 7/ Survey* Corins Tooting Ctrcuiale Sample / Run Casing Cementing Wtretaa Logging ClreiNot« eng eondltion mud /£ Rig SonNca Teat SOP* /£ Repair* Zc?>*^A//*a r Ar MUD PROPERTIES Density (AG.) ^y g/ec Vtoeoetty Water Loot ^,*2 oo/Sgmm pH FWtof Cake mm Ptatite Vte. /y Yield Feint zy Send z^r % SoNda r. 7 % OU % CNoriAm ng/L Ha ■rd note mg/L Desander ztf he* Deettor zv IM Daily Cast « CumwlCoot » 37fK HOURLY OPERATIONS SUMMARY (0000-2400) SURVEYS Prom To Operation 4 •* •1300’* " al FL oo~ 03* ?*/**. ro A33L3.~ as** • el Ft o*3o w z» * at FL J** ct* c/*e fiti'. * a* FL Mam //So j/TrMutitr • ot Fl tMtntrotrr et* 0 rrsntc /Jto* A***. rtfrSM M*. PUMP 1 /ass *rt/ MJ Liner glM / At» J. 4 # Pleasure POL 4.W /fee 3W ***** a/w Annular Vol. DP FVndn /71o costs'. ro a sas Xnnuter Vol DC FVmla S7fO Arivr w. rf&ottrMn ,SPM *s*f* 9M**r SCR XS /fat •1+04 .&*'* * r~» JS/fS7 PUMP 2 Liner Else 6 <*» Pmesuro z<" >* Annular Vtl DP J Ao ■ ■OPERATIONS AT 0700 Annular VoL DC «P.Z FVK| " ZK/-** fr SPM r er SCR CHEMICALS USED Type Amount <3 & yy*z Z farrtoe y - y dteOAv' z yr LAST CASING SIN We*gM jz Grade yary Joints Length <394 Shoe *29f. Z OPERATOR: 3ELU Z. REPORT No.: £3- DAYS FROM

SPUD:— DATE: * ' ft* MW DEPTH LAST bnpt* 9? 4*73* 24 HR PROGRIM. 3& PROPOSED FUEL ON MAMBr.^ZPP^ FUEL USAGE: nZPPP DAILY COST: 1 JW* CUMUL. COST: S 7^3 MMAAtfR- rff?/*#*,** ’ 'IsrSlM l-z^gr. z<>rA/»z> BIT INFORMATION OPo BREAKDOWN (bouts) llNumhor -T OfWng z # StM fl Trtpptng 1 <? - Mote Sunwyo Tn* nmt Coring ■lADCCPSt ^^7 Tooting Swtai Nwnter is*/3* Oroutata tempta NoulN Jnd Ron Coital Dw*M(FV> ^9 -139* Cmi anting Depth out (PR Wteine Logging Total PM rz Cfrcutato ind eondRtaROHiE Hmhb RtgSorvlee WOE (Wo) Toot POP* RPM Ropolro CouMton rtO5T/«rj>^Mfc tmpMtForeo JotViMly Sts MUD PROPERTIES DomRy (S.O.I J g/«c Vteotey WaiarLmi % 0 cc/Xmta pH *< FtaarClte /• M PtooOcVIo. // YWdPohM Sate 77? % SoMi 3.7 % ON — U CMoitaoO /fit*? mg/L Horgnoeo mg/L Deiatew S3?g ho PooMor two DoRyCoot Cumol Coot «srw HOURLY OPERATIONS SUMMARY (0000-2400) Prom To OporwNon /<* TV ff* cm* wmaks (W/h/hs w SZtexTifg . <7* MYti/r *>c. MtMeef jeer 9^ srttw ^/9y<?■c/rtT(^e J&S. S7W fd M3 ///yrfd 7*> *1433 OPERATIONS AT 0700 CHEMICALS USED Typo Amount Arte ^jT r/&rr#v* J? A A LAST CASING *teo WotgM X' Credo ss* ^olnto Z9 Length a^r.a- Shoo •L?g*,~Z~ ACT I z TRATOR: _ . —C — REPORT No_ - '7 DAYS FROM SPUD: ■^2 DATE:—- 2400 DEPTH flft/^,7 LAST DEPTH: 24 HR PROGRESS: —•£ PROPOSED TO: — FUEL ON HAND: 7#*? 0 FUEL USAGE: r DAILY COST: * l/ttf CUMUL COST: S 4*2 S0^7 REMARKS: ^<T/^Cr7X /—/T/V 'J j a 11 > F I J-'JtSr/Z** / R.H.A. /^zr,r. I BIT INFOR MATION BR NuaiSor far SUe g>£ Maha rf/c TW* <W?3 IADC Code Jtf- 7 r*7*7 Serial Num** (SI/JP Meiriea X/0 SZZZ m* In (H)^ *3*0 DepSieotfO^F ZS*7 9*/t Total Peet „ //7 Hewn WOSflha) j/Jb RPM 4* CondMttn d+£. Impart Perea Jot Vela city /// OPo BREAKDOWN (hours) DrVttng — 7 Tripping // Surveys CarlAf Teat Ins z Ctreulafe Sampn tL Rim Casing Camanting WkeNne Logging CtreuWe and condltton mud 7 Rig Service Teat BOr» Ropoira ’ "5, MUD PROPERTIES Density (S.GJ 4-3 B>« VtOCOflly J 4*/ Wafer Laea cc/30 mln pH *5- FlRerCahe awa RaMte VW. // YUM Petri ze Sand r* % SoMa *7 * ON * CNofldM S0.4OO ✓mg/L Hartnett /c "S'*- Ooeendar Z/ hm DeeSter ~z? hn DeNyCeri * -A75? Cumut Coat HOURLY OPERATIONS SUMMARY (0000-2400} SURVEYS Fran Te Operrifea /4‘ 11 * fa* <?7« Mu rv * rt PL 0000 r*tc wu • at Pl ^000 /a srp mfat rst/s jfaa* • rt FL rria <r/rc St/ •at Pt W 7000 fan’.fa/i S'/# r» * at Fl /^00 w /fWGr&S 7f.fr ?/us PUMP 1 /700 /&•* St# r* //orr Uner She 7^ Jto/S S/u^S Prottura PtL /f*0 J/it #7# rsrsr r?*t r Annular Vol DP FVmfe 2/J/ M00 Annular Vet DC PVmtn 70 7&W //9s#^^^^ BPM •24 <93^7 - J SCR 4f/<rf4 St/rS rfydsrs#/ sfat* r >se fszf, PL IMPS AX00 SrfafKrrr. Uner Site 6 h. MS0 A000 /?/#. Pmaaare /fa p* Annular Vet, DP 32>V. «'•“ OPERATIONS AT 0700 Anmdm Vet DC i Ft/min X /X ^rnr Srfa*. SPM 99 r * Pfru. SCR ^7/4fO CHEMICALS USED Type Amount /Cf zs z4crs»c f //•('AZ -7 -J #StAf*s LAST CASING SUa Weight '?z< Grade Joint! Lengtn aft-i Shoe .iff.*' BIT INFORMATION BHItaMtar 3>/Z Ota* ft ate* TMM ffifu UOCCMi W<hM(Pl| Dtp* CM (P*^ • ■TatatPW pf VOS (Ba) MW A C*MMm Unseat Forst 977 JetVaMeRy e OPS BREAKDOWN (hours) DrSSftf TrWH* •men Cartas TMMrs / Cliuutate Semite / MmCmMS CaamNMs Wlrelw Lospnt ObnMi'iiS mMNmi hhM •£ RlStenlaa TaatOGTa ItoSSM t. MUD PROPERTIES DeaaRr (*•*>) 9./ »* VM«MW Water Lata caVah N* RRarCaha / M PlMStVte. YleMPaM SaM 7# UK s- 7 % os * CHeMaa /9^9O -pL HwMlIt •Pl OMM* /? Mi Mr tz. Mi DtSyCW CiMMSCMI «^79^ HOURLY OPERATIONS SUMMARY (0000-2SOO) Ft** Ta Operetta* S+S. rsfT ?xrrrt**f //** Se&rr 4wr 73»1&kl V** 07* SfrSt Sr'S T* 47J* auro SsSC, ft/T frfs S03O /fAu.

to JW* /'Jo Cf*c. 7& . a • OPERATIONS AT 0700 8URVIYS * at R. • at R. * at FL • st R. * at PL * at R. Une» Ste* ~~T^ PrtMura ml Annular Y*L DP RAM* Annular v*l DC FVmh SPM SCR PUMPS Un** Sixt Pr*«Mir* //Zp ml Annular Y*l. DP jy, jrw** Annular Yte. DC FVfflte SIW PS SCR CHEMICALS USED Tfm Amaura /Trz 49 f / Jf LAST CASINO Slie WelfM z/ Okada Jalnta .4/ Lana th Shat McKay Consulting Services *®8RATOfc - TtfSJSfX 2400 DEPTH ^-Z Z?* LAST DEPTH: FUEL ON HAND: FUEL USAGE: *2-^ REMARKS:- /^r<?af/yyy. z DAILY DRILLING REPORT D*»« FROM »I>UO: J?' 0AT1: m£ Z/* 24 HR PROGRESS: 2L£ — ■■PROPOSED r/ZZfP DAILY COST: < «L*f/p CUMUL. COST: S 77+ wtfc. .irStocr". BIT INFORMATION Bn Number SUe Make Type onm IADC Code f'Jt? Serial Number O1/SP Nentee w >eptttto*(R)^ ^egOiowt(P<)^ Total FmP m Home WOS (tas) RPM ConttNtoa ImgoetFeteo 377 <MV«leehy &£. OPS BREAKDOWN (hours) OriHIng 2* Tripping Surrey* Coring Teattag Cirouiote Samgte Run Caring Cementing Wlroino logging CkcuMaand eaMMofi mutt Rig Service Teat BOPs Ragetr* MUD PROPERTIES Density (S.G.) # & g/ce VlOOOOlty Waterless 7» & cx/’SO mtn PM ? 4- murc^ / mm PlaetteVte. /S Tiete Point sr ■Sand rs % lol Ma f.7 * Oil •» W Ctearittm /•*»«» mg/L So fflf/L Deaanttor 20 tee DooOter tea Dolly Coot Cumid C-aat JL ^jStdLSi. HOURLY OPERATIONS SUMMARY (0000-2400) Prom to OporatloA o£>** SURVEYS • et Pl * si Fl el Fl • st Pl • at Pl • al Fl PUMP 1 liner Etta z * ■Preeeuro P*. Annular vol DP FVmhi Amutar Vet DC FVmta SPM SCR CHEMICALS USED Typo Amoamt Of- / / r *<ls Jp JlttCOSldT s OPERATION* AT 0700 or ~2 PUMP 2 UnorStee K Proesuro '>>«* p* Annular Yol DP Pt/mta Annular Vol DC /]p. f FVmte SPM t* SCR ft* 7*e LAST CASING She Weight Grotto •TXTf Joints *79 length Shoe <=zy&S PCT Fax X9052 PPBE Bl 'RATOR: AalX: Z_ REPORT No.: SAM DEPTH » LAST DEPTH: FUEL ON MANN: J*** FUEL USAGE: ("MARKS *>±_ — OATS FROM SPUD: DATE:- ^Z- /. <?* 34 HR PROGRESS: —2- PROPOSED ra AZ/** DA | LV COST: 3 CUMUL. COST: 3 AfArfa r*ear.fyt, ^tr/.j^er. /9r< fa" BIT INFORMATION HNlMMf Sm/ fltaa Mate *rc Tm trrjj lADCCeS* f* 17 SarNiNtiaiMr Neufra ffi/r J* OMR) Def* out (Pt) ToMFool Mun Jf WOE (the) f. 4*4 RPN z« Cwrtfr • tewotFwco vzz JatVefrcEy -V— OPi BREAKDOWN (hour*) DfEBny i Trtppiaf rt. Swwye Cortot Tatotof CtoMata Swapl* RvoCartif CamPMtos WMIm Loftins /i CtreutataanO ceMSen mM Rif Sanaa* Teat BOP* Repton MUD PROPERTIES DemWCSa.) P« Vtooarty WafrrUB* £ £ co/xmto pH < -r • PStarMB at m Harte W. /* YMdMN fir Sana r* % son* % OS w CNfrMfr /f.'te a*A HwPmm 7 S. wrA OaaanM M Dartiw J. hr* oaayCaai • zzr«» 1 CwMCm » HOURLY OPERATIONS SUMMARY (0000-2400) Pram To Operatton 00 r"0 <2 ZZ*>» zz>* ^'-ZP '&> ^XZC? 4£& ft* r* . ^few - r sfif*-. ^^6 SURVEYS «£ * M • at ft. * M ft r •* ft * at Pl • al ft PUMP 1 OPERATIONS AT 0700 /4frz<-/ry Linar Stoa z - Pressure PA Arwular Vai. OP Pt/mto Annular Vai. DC FVnto BPM SCR PUMP 2 liner SU* z - Prrsture /^0 0 P* Annular Vai. OP y^^FVmto Annular VaL DC y^./rvrtn BPM SCR CHEMICALS USED Type AmeaM A/*dr/7c- / S*Cf*4 fi tf/yres ?r fierce / LAST CASINO Ska 9f WHyM QraPt <r*r Joint* 41 L*nf1h Shoe *2?<? Z McKay Consulting Services ( TUTOR: IU——'REPORT No.: NW OKPTH _ LAST DEPTH: FURL ON HAND; SJWC'iJ FUEL UtAQE; aiMAirt- ’' Am ■DAILY DRILLING REPORT DAY* FROM «FUD. DATE; z-7T /y„ HHRPROaMII mOPfttlB TO- < DAILY COlTl /^a? 4^7 CUMUL COST: S — - BIT INFORMATION OP* BREAKDOWN (houra) MNuntv J>X/ DfMM to* pi Trippina teteaa *fz Rorvoya Type W! Cottes lADCCoSt X. J,.7 ToeUn* SertMNunbar Clreutefa Sample c •un Caateg ’ Ab(R) L a CmmaMo* OapO«M|FS ft

WlmMna Logging rfi TotfFeaa threuuteano oonSMtoa omm / Hm» i RlgSarvtao WC0 0M Tom 000*0 RPM ••pal* C46MM / Imr^Fmw JotVetaaSy MUD PROPERTIES D«vM(**a) gme VtooMte Voter Lmi 0, £ tteMote Piter CUo MM PloMte YR. AL YteM Petal Sana w *oM» s-s « Off « CNOttaaa <&&&. HarRm /ar TV Oaaotiffar z tea DeoROt 0 tea Daffy Coat • CumN ■Coat «ftZ±2£— HOURLY OPERATIONS SUMMARY (0000-2400) SURVEYS From Ta Operator* 0 M Pl. ZZZZA*^ jZ/UJK • al Fl. /«> \ *•» \ Ft r / T., V~ PL SV.SS'r e X- PL Jft>0 £**'/-• ///. * at PL lew ewe. r ev.*s PUMP1 Linar Slat /** tn. Prasaurt pal. Annular «?—h. ■Vai. OP FVm * •« »CR PUMPS Ilnar Ilia O In. 1 Pretaura P«L Annular rtfMfa vn. OP Fvmto OPERATIONS AT 0700 Annular rt/^> VeL 0C H/rten /Z/z^ 7 zZ/ZP* r>**r ; / rzy< BPM BCR CHEMICALS USED Type AjrrmI T~ 1 ...l f LAST CASING •tee Weight QraOe Z/T Jotnta Length . <? Shoe z?z.z ft c t FAX 369652 OPERATOR: /ff/ZZTffZ _ .... ^*<1 * ' _ -/ REPORT No.: — OAYS FROM SPUD: - — OATE:^ st - ••00 DEPTH LAST DEPTH: XXX 2t HR ■PROGRESS ZZ PWOPOSEO TO; __i£!x2Xj£< FUEL OH HARD: <£^VcP FUEL USAGE: DAILY COST: » 7/-/^ CUMUL COST, t ?Q0&S9 REMARK.: Ar/V^Tf ,' 4^?/^ __ /»!vgr^2> s/rtfs B.H. a. __ Azyz-Akr-.../ lyj'Az-^.vj jrs. BIT INFORMATION IltMumUr •kM Make IADC Cotto •ertet Mumper NOKtoe Ovpth In |Fl) , P»«A(Ft) Total Fm( Kwn WMRM9 RPM COMUttMk iMpncl Fwm MVetocfty OPa BREAKDOWN (hours) Drittlr* Trippinfl '5 flurwyl Cnrtofl Tearing Clrcuiata Sampia Run Coateg ComerMto* Wtoekne Logging Cteeuiala IM eondttton muri /I Rig ferrlco Teel SOP’a Repair MUO PROPERTIES DanaPy (fl.Q.) -. Zf- Ytoooapy Water Um <?, J ec/wmte pH 4' PWterCaka WMk Ptetete via. ys ttetePctot st Band STf * Sou* 7<T % Oil % CMorMaa mpX HarriMta & teflA. DaaanPar Z' Ma OeaNter art DaflyCM ’ J-/? Cumut Caat 'StZZs&. HOURLY OPERATIONS SUMMARY (0000-2400) SURVEYS Frem Te Oparthen "at Pt. jt* C/fft fOA-J> //cv^r • a< Pt 4JW MS rv 7&Sr~ ' al PL /?&! r • at Pi. ’ at PL afo<} /. At. • at n AfA# cSA raw <'//&? PUMP 1 Svr?f7& TV //YK.VTi''' Linar Site z- Prtaaura pat yfoo Jj-jT a < SSeS Annular Vet op PVmin /7*h. - /^r.sFz’ Annular VeLOC Pt/lMn toss SPM /33£> /?/‘/&/77/V S'# /AA&?s& SCR sr" J /4W Musty Sty PUMP 2 Unar fllta ..z *• /$x> dn&S' SifrSe^A J/S ? MS J Praatura P«- Annular Vai- DP et/mln - OPERATIONS AT 0700 Annular VaL DC Fl/min »PM • SCR CHEMICALS U3E0 Type Amount AVe Xs* tyfW/v X LAST CASING •tee walflht Graria Tit Joints If Length •hoe ■

APPENDIX 3 MUD ENGINEERING REPORT RACEDANE PTY LTD. ILLING FLUID CONSULTANTS A.C.N. 010 551 210 E. Trethowan M. Trethowan 93 Ridley Road Bridgeman Downs. Old. 4035. Australia. Telephone/Fax: (07) 263 9659 DRILLING FLUID SUMMARY MIM PETROLEUM EXPLORATION 12th JULY, 1994. MAJESTIC # 1 DRILLING FLUID CONSULTANTS DRILLING FLUID SUMMARY TABLE OF CONTENTS WELL DATA SUMMARY DISCUSSION AND RECOMMENDATIONS MUD MATERIAL USAGE AND COST DRILLING FLUID PROPERTIES SUMMARY BIT RECORD AND HYDRAULICS SUMMARY DAILY INVENTORY RECORD DAILY ENGINEERING REPORTS OPERATOR WELL LOCATION ELEVATION CONTRACTOR RIG SPUD DATE DATE REACHED T.D. DRILLING DAYS TOTAL DEPTH TOTAL MUD COST MUD COST/DRILLJNG DAY MUD COST/METRE ENGINEERING COST - 24 DAYS AT $500 PER DAY TOTAL COST - MUD AND ENGINEERING RACEDANE ENGINEER CASING PROGRAM DRILLING FLUID CONSULTANTS WELL DATA SUMMARY MIM PETROLEUM EXPLORATION MAJESTIC # 1 ATP 549P, QUEENSLAND 159 M. [G.L.] O. D. & E. RIG #22 27th MAY, 1994 15th JUNE, 1994 18-BASED ON CALENDER DAYS 2667 M. $47,724.19 $ 2,651.34 $ 17.89 : $12,000.00 : $59,724.19 : ERNIE TRETHOWAN : 9 5/8” SET AT 298.3 M. DRILLING FLUID CONSULTANTS DISCUSSION AND RECOMMENDATIONS Majestic # 1, an exploration well within ATP 549P, Queensland, was spudded on the 27th May, 1994, with 12.25" hole being drilled to 304.8 M. using gel spud mud. A wiper tap was made to surface and the hole circulated clean. The 9 5/8” casing was run and cemented at 298.3 M. Drilled out the cement and shoe with brine containing 3% K.C1.. Ran a Formation Integrity Test to 11.0 ppg with no leak-off noted. Drilled ahead and added a small quantity of PHPA to partially flocculate the system and improve solids removal through the hydrocyclones and centrifuge. The brine density was maintained at 9.1 ppg or less. At 1264 M., the system was treated with PAC to convert the brine to KC1 - Polymer mud. The PAC controlled the rheology and reduced the filtration loss. Oxygen scavenger was introduced to minimise corrosion rates. The mud density stabilised at around 9.2 ppg after the conversion to K.C1 - Polymer. Drilled to 1540 M. and tripped for NB # 3 with no hole problems. Drilled ahead and began experiencing rapid increases in rheology and deteriorating filtration control. This was attributed to the high clay content of the formations from the late Jurassic down to , and into, the Triassic. The best treatment for the system appeared to be additions of premix containing high levels of polymers. Light treatment with dispersant had short term beneficial effects but the use of thinners was limited so as to minimise the dispersant affect on the formation. The KC1 level was raised to 4% but this did not appear to greatly reduce the dispersability of the formation clays. The testing for the Potassium ion did not indicate any significant consumption of Potassium compared to the Chloride ion. Drilled to 2083 M. and tripped for NB # 4 with no hole problems. The system was treated with biocide prior to tripping to insure against bacterial degradation as the mud pH had been kept low ,at around 9.0, to try to minimise clay dispersion. Mud rheology continued to be a problem and treatment with additional polymers was continued. The filtration rate was reduced to 8 ccs. as the target zone was approached. Drilled to 2390 M. and tripped for NB # 5. Ran in and drilled to 2465 M. and pulled out looking for a washout. Layed out a defective drill collar and ran in and drilled ahead. The mud volume was built up with premix to compensate for losses on the wet trip.

Drilled to 2507 M. and circulated out a sample. Made a 10 stand wiper trip, circulated clean and pulled out to pick up test tools. Ran in for DST # 1,2493 - 2507 M, but unable to hold the packer seat. Pulled out with test tools, ran in and drilled ahead. Some mud losses to the formation were noted but no LCM material was added while drilling the target zone. Drilled to 2667 M. - TD. The mud temperature nearing TD was 72° C. at the flowline and the mud showed signs of increased gelation and increasing filtration loss due to a reduction of polymer efficiency. At TD, made a 10 stand wiper trip, circulated clean and pulled out for logging. Mud losses while logging were less than 1 bbl/hr. After logging, ran in and circulated the hole clean. The mud was only slightly dehydrated after 45 hours without circulation, with a minor increase in density and viscosity. Maximum bottom hole temperature recorded on logs was 278 0 F. Pulled out, picked up test tools and ran in, adding 457 M. of KC1 Brine cushion to the drill string. All attempts to set the inflatable packers in the Toolachee/Patchawarra zones were unsuccessful despite picking packer setting depths in 9-10" hole. Pulled out with test tools, ran in and set cement plugs for the abandonment program. Evaluation of the mud program can be viewed from two aspects. From the drilling aspect, the mud was more than adequate with good penetration rates at the relatively low mud density and no time lost due to poor hole conditions ie. no tight connections or trips. From the well evaluation aspect, there appeared to be no major problems with data being obtained via mud logging, however some clay material would have been absent horn the samples due to being dispersed in die mud. Wire line logging was trouble free in relation to hole conditions. The main problem in well evaluation was the failure to run successful DSTs on two occasions. In both tests, the first conventional bottom hole and the second inflate tools off-bottom, the packers were set in what appeared to be approximately 9.5" hole, but mud was able to leak by the packers. The possible causes of this problem is to be examined. With no DST data available there could be no further evaluation of mud type in regard to formation damage eg. no skin damage data available. The hole, in general was over gauge, but not excessively so. From the casing shoe to die basal Jurassic, the gauge averaged mostly 9-11" with occasionally some 12" spots. From the top Triassic to TD, the average was mostly 9-10”, with only the top Toolachee coals washing out significantly. The mud cost was higher than anticipated and this was mostly due to iheology and filtration control problems experienced while drilling argillaceous sections in the lower Jurassic and upper Triassic. The best mud treatment was found to be addition of prenux containing high levels of polymer. The KC1 level of 3-4% appeared adequate in that the ratio at K> to CT ions remained constant, indicating no great demand for the K.+ ion. The polymers used, mostly PAC, was, at the concentration used, unable to prevent the dispersion of formation clays, resulting in the need for dilution. PHPA type polymer would, most likely, be more efficient at inhibiting these clays. However, as the main interest in the well is the Permian section, it would need to be decided as to whether or not more hole stability in the upper hole sections was of major benefit. The current recommendation would be to try KC1 - Polymer mud again on the next well increasing the level of polymer used to try to improve clay inhibition. If no significant improvement is noted, an increase in KC1 level or a change to KC1 - PHPA mud, should be considered for the third well. It may also be worth considering running lower hydraulic parameters on the second well to see if

this has any significance to hole gauge. DRILLING FLUID CONSULTANTS MUD MATERIAL USAGE AND COST OPERATOR ; MIM PETROLEUM EXPL. DATE :27th MAY, 1994. WF.T,L : MAJESTIC # 1 DRIFTING DAYS : 1 HOLE SIZE : 12.25" COST/DAY : $2,219.11 INTERVAL : 0-304.8 M. COST/METRE : $ 7.28 PRODUCT UNIT UNIT COST USAGE COST M-I GEL 1001b 26.11 81 2,114.91 CAUSTIC SODA 25 kg 33.10 2 66.20 LIME 25 kg 9.50 4 38.00 TOTAL $2.219.11 COMMENT.: Drilled with gel spud mud. DRILLING FLUID CONSULTANTS MUD MATERIAL USAGE AND COST OPERATOR : MIM PETROLEUM EXPL. DATE :29thMAY-15thJUNE,1994 WELL : MAJESTIC # 1 DRILLING DAYS : 17 HOLE SIZE : 8.5" COST/DAY : $2,676.77 INTERVAL : 304.8-2667 M. COST/METRE : $ 19.26 PRODUCT UNIT UNIT COST USAGE COST CAUSTIC SODA 25 kg 33.10 37 1,224.70 POLYPAC REG. 25 kg 186.17 47 8,749.99 DESCO 251b 64.17 19 1,219.23 KC1 25 kg 14.14 1091 15,426.74 O.S. 1 25 kg 56.44 13 733.72 BACBAN 111 61b 116.04 9 1,044.36 ID PAC R 501b 136.36 44 5,999.84 ID PAC LV 25 kg 130.00 40 5,200.00 CMC-LV 25 kg 80.50 36 2,898.00 JK.-261 25 kg 140.00 4 560.00 SPERSENE 501b 29.50 23 678.50 BARYTES 25 kg 8.85 200 1,770.00 TOTAL $45.505.08 COMMENT : Drilled with KC1 brine to 1264 M. and KCl-Polymer to T.D. DRILLING FLUID CONSULTANTS MUD MATERIAL USAGE AND COST SUMMARY OPERATOR : MIM PETROLEUM EX. DATE : 27 MAY-15 JUNE, 1994. WELL : MAJESTIC # 1 DRILLING DAYS : 18 TOTAL DEPTH : 2667 M. COST/DAY : $2,651.34 SUMMARY BY : E. TRETHOWAN COST/METRE : $ 17.89 PRODUCT USAGE COST % OF TOTAL COST M-I GEL 81 2,114,91 4.4 CAUSTIC SODA 39 1,290.90 2.7 POLYPAC REG 47 8,749.99 18.3 DESCO 19 1,219.23 2.6 K.C1 1091 15,426.74 32.3 O.S. I 13 733.72 1.5 LIME 4 38.00 0.1 BACBAN 111 9 1044.36 2.2 ID PAC R 44 5,999.84 12.6 ID PAC LV 40 5,200.00 10.9 CMC LV 36 2,898.00 6.1 JK-261 4 560.00 1.2 SPERSENE 23 678.50 1.4 BARYTES 200 1,770.00 3.7 TOTAL COST $47,724.19 COST LESS BARYTES $45,954.19 DRILLING FLUID PROPERTIES SUMMARY WELL : MAJESTIC # 1 OPERATOR: M1M PETROLEUM EXPL. LOCATION : ATP 549 P, QUEENSLAND DATE MAY 94 DEPTH M. DENS. PP8 VIS tecs P.V. Y.P. CELS 10 sec GELS 10 min FILT. ccs CAKE 32od> PH Pf Mf Cl- ppm TH(C») mg/li SOLS HCALC WATER HCALC OIL % KC1 % OPERATION FORMATION 27 th 304 9.0 40 N/C 9.5 CIRC CLEAN WINTON 29 & 540 8.8 29 N/C 10 0.4 0.5 15,000 350 2.4 97.6 3.0 DRILLING WINTON 30 th 1006 9.0 33 4 12 5 6 N/C 9.5 0.1 0.3 17,000 360 3.7 963 3 5 DRILLING ALLARU 31 at 1256 9.1 33 4 11 4 6 N/C 9.5 0.1 0.2 16,000 320 4.4 95.6 3.5 DRIUJNG WBILLA 1 st JUN 1471 9.2 38 6 9 3 10 9.5 0.1 0.25 17.000 280 5.2 94.8 3.5 DRIUJNG CADNAOWIE 2nd 1576 9.2+ 40 7 10 5 10.5 9.5 0.1 0.25 16,500 320 5.2 948 3.3 DRILLING MURTA 3rd 1729 9.2+ 39 9 11 2 9 10 9.0 0.1 0.3 17,500 240 5.2 94.8 3.7 DRILLING W'BOURNE 4th 1855 9.2 41 8 11 2 10 10.5 2 9.0 0.1 0.3 18,000 220 5.2 948 3.8 DRIUJNG BIRKHEAD 3 th 1968 9.1 + 38 9 11 2 9 8.2 9.0 0.1 0.3 18,000 200 4.5 95 5 3.8 DRILLING HxrrroN 6th 2083 9.2 40 11 11 2 11 8.4 9.0 0.1 0.3 18,000 160 5.2 94 8 3.6 TRIPNB#4 P'WANNA 7 th 2166 9.2+ 42 11 14 2 12 8.8 2 9.5 0.1 0.4 19,000 120 5.2 94.8 4.0 DRILLING GILPEPPEE 8 th 2258 9.2 40 10 12 2 10 8.4 9.5 0.1 0.4 20,000 80 5.2 94.8 4.0 DRIUJNG DNMULLA 9th 2374 9.3 39 9 11 2 10 7.4 9.0 0.05 0.5 20,000 160 5.7 94 3 4.0 DRIUJNG ARRABURY 10 th 2418 9.3 41 10 13 2 11 8.2 9.5 0.1 0.5 20,000 100 5.7 94.3 4.0 DRILLING ARRABURY 11th 2472 9.3 41 11 13 2 10 7.0 9.5 0.1 0.6 19,500 60 5.7 94.3 4.0 DRILLING ARRABURY 12 th 2507 9.3 41 11 12 2 10 7.0 9.5 0.1 0.6 19,500 60 5.7 94 3 4.0 DST # TOOLACHEE 13& 2585 9.3 42 11 14 2 11 7.4 9.5 0.1 0.7 19,000 60 5.7 94.3 3.6

DRIUJNG PWARRA 14 th 2664 9.3+ 43 11 14 2 14 8.0 9.0 0.1 0.7 19,500 60 5.7 94.3 3.8 DRIUJNG BASEMENT 15 & 2667 9.3+ 43 12 14 3 15 8.5 2 9.5 0.15 0.8 19,000 60 5.7 94 3 3.8 LOGGING BASEMENT BIT RECORD AND HYDRAULICS SUMMARY OPERATOR: MIM PETROLEUM EXPLORATION WELL : MAJESTIC # 1 LOCATION : ATP 549 P, QUEENSLAND CONTRACTOR: O. D&E RIG: # 22 SPUD DATE : 27th MAY, 1994 REACHED T.D.: 1 5th JUNE, 1994 CASING: 9 5/8" SET AT 298.3 M. INTERMEDIATE: DRILL PIPE : 4.5" X 3.826" GRADE G DRILL COLLAR : 6.25" X 2.8125" PUMP # 1 : NATIONAL 8-P-80 1 BBL/S1 [R : 0.0705 PUMP # 2 : NATIONAL 8-P-80 | BBL/STR : 0.0705 | ASS. EFF: 95 % MUD TYPES : 1. SPUD MUD TO 304.8 M. 2. KCL BRINE-NATIVE SOLIDS TO 1264 M. 3. KC1-POLYMERTOTD. Brr No. SIZE TYPE JETS 32nds OUT M. dril led HRS M/HR WOB Klbt RPM DEV. 0 MUD DENS MUD VIS. MUD W.L PUMP SPM PUMP GPM PUMP PSI AV-DP M/MIN AV-DC M/MIN JVEL M/SEC LF. LBS ECD PPG COND. T-B-G i 12.25 LIU 3x16 304.8 304.8 11.3 26.5 10-15 150 3/4 9.0 40 N/C 170 503 800 29 34 83 640 - 1-1-1 2 8.5 ETD417 3x11 1540 1235.2 79 15.6 7-25 90-150 1 1/2 9.2 38 10 100 296 1100 42 67 104 480 9.4 2-3-1 3 8.5 ATJ22 3x10 2083 543 88 6.2 35-38 65-75 2 9.2 40 8 95 281 1500 40 63 119 523 9.4 6-5-1/16 4 8.5 ATJ33 3x10 2390 307 72 4.3 42 60 1/4 9.3 40 8 95 281 1675 40 63 119 528 9.5 6-5 1/16 5 85 ATJ33 3x10 2507 117 27 4.3 42 60 1 1/4 9.3 41 7 88 261 1500 37 59 111 456 9.5 2-2-1 5RR 8.5 ATJ33 3x11 2667 160 39 4.1 42 60 2 9.3 42 7.5 88 261 1200 37 59 91 377 9.6 6-5-1/16 ▼PRODUCT DATE ON HAND EX ROMA MAY 27th 28th 29th 30th 31st JUN 1st 2nd 3rd 4th ►5th 6th 7th 8th 9th 10th 11th 12th TOTAL Ml GEL RECD 0 160 80 240 USED 81 81 100 LB BAL 0 160 79 79 79 79 79 79 79 79 79 79 79 79 79 79 159 159 159 159 CAUSTIC RECD 0 84 84 SODA USED 2 1 4 2 3 3 2 2 2 2 2 3 2 2 2 34 25 KG BAL. 0 84 82 82 81 77 75 72 69 67 65 63 61 59 56 54 52 50 50 50 POLYPAC RECD 0 64 58 122 USED 3 9 10 3 6 8 39 25 KG BAL. 0 64 64 64 64 64 64 64 64 64 64 64 64 61 52 42 97 91 83 83 POLYSAL RECD 0 30 30 USED 0 25 KG BAL. 0 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 DESCO RECD 0 60 60 USED 6 6 6 18 25 LB BAL. 0 60 60 60 60 60 60 60 60 60 54 48 48 42 42 42 42 42 42 42 KCI RECD 0 800 760 666 2226 USED 180 140 60 100 30 70 60 70 60 60 70 45 20 25 25 1015 25 KG BAL. 0 800 800 800 620 480 420 320 290 220 920 850 790 730 660 615 1261 1236 1211 1211 O.S. 1 RECD 0 40 40 USED 2 1 1 1 1 1 1 1 1 1 11 25 KG BAL. 0 40 40 40 40 40 40 38 37 36 35 34 34 33 32 31 30 29 29 29 SODIUM RECD 0 20 20 BICARB. USED 0 25 KG BAL. 0 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 LIME RECD 0 40 40 USED 4 4 25 KG BAL. 0 40 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 BACBAN RECD 0 12 6 18 111 USED 2 3 2 7 6 LB BAL. 0 12 12 12 12 12 12 12 12 12 18 18 16 16 16 16 13 13 11 11 PIPE LAX RECD 0 1 1 USED 0 208 It BAL. 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 PRODUCT DATE B/F JUN 13th 14th 15th 16th 17th 18th 19th 20th 21st 22nd ▼ ►23rd 24th 25th 26th 27th 28th 29th 30th TOTAL Ml GEL 100 LB RECD USED BAL 240 81 159 159 159 159 159 159 159 159 159 159 159 159 159 159 159 159 159 159 159 240 81 159 CAUSTIC SODA 25 KG RECD USED BAL. 84 34 50 1 49 2 47 1 46 46 1 45 45 45 45 45 45 45 45 45 45 45 45 45 45 84 39 45 POLYPAC 25 KG RECD USED BAL. 122 39 83 3 80 5 75 75 75 75 75 75 75 75 75 75 75 75 75 75 75 75 75 122 47 75 POLYSAL 25 KG RECD USED BAL. 30 0 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 30 0 30 DESCO 25 LB RECD USED BAL. 60 18 42 42 42 1 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 41 60 19 41 KO 25 KG RECD USED BAL. 2226 1015 1211 22 1189 40 1149 1149 1149 14 1135 1135 1135

1135 1135 1135 1135 1135 1135 1135 1135 1135 1135 1135 2226 1091 1135 OS. 1 25 KG RECD USED BAL. 40 11 29 1 28 1 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 40 13 27 SODIUM BICARB 25 KG RECD USED BAL. 20 0 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 20 0 20 LIME 25 KG RECD USED BAL. 40 4 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 36 40 4 36 BACBAN 111 6 LB RECD USED BAL 18 7 11 11 11 2 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 18 9 9 PI PE LAX 208 It RECD USED BAL 1 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 4 J 4 1 1 0 1 PRODUCT DATE ON HAND EX ROMA MAY 27th 28th 29th ▼ ►30th 31st JUN 1st 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 11th 12th TOTAL DEFOAM RECD 0 1 1 A USED 0 208 It BAL. 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 CONQOR RECD 0 1 1 303A USED 0 208 It BAL. 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 KWIK RECD 0 27 27 SEALM USED 0 40 LB BAL. 0 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 BARITE RECD 0 640 640 USED 30 35 40 105 25 KG BAL. 0 640 640 640 640 640 640 640 640 640 640 640 610 610 610 610 575 575 535 535 ID PAC-R RECD 0 44 44 USED 24 2 2 4 6 4 2 44 50 LB BAL 0 44 44 44 44 44 44 20 IS 16 12 6 2 0 0 0 0 0 0 0 ID PAC-LV RECD 0 40 40 USED 3 7 6 12 9 3 40 25 KG BAL 0 40 40 40 40 40 40 40 37 30 24 12 3 0 0 0 0 0 0 0 CMC-LV RECD 0 40 40 USED 3 4 10 3 2 3 25 25 KG BAL. 0 40 40 40 40 40 40 40 40 40 40 40 40 37 33 23 20 18 15 15 JK-261 RECD 0 10 10 USED 3 1 4 25 KG BAL. 0 10 10 10 10 7 6 6 6 6 6 6 6 6 6 6 6 6 6 6 SPERSENE RECD 0 30 30 60 USED 8 3 3 14 50 LB BAL. 0 0 0 0 0 0 0 0 0 0 30 30 30 30 22 22 52 49 46 46 POLYPAC RECD 0 58 58 USED 0 50 LB BAL. 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 58 58 58 58 RECD 0 0 USED 0 BAL. 0 0 0 0 0 0 0 fl u u n v A v A v Q Q 0 o 0 0 0 PRODUCT ▼ ►DATE B/F JUN 13th 14th 15th 16th 17th 18th 19th 20th 21st 22nd 23rd 24th 25th 26th 27th 28th 29th 30th TOTAL DEFOAM A 208 It RECD USED BAL. 1 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 1 CONQOR 303A 208 It RECD USED BAL. 1 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 1 KWJK SEALM 40 LB RECD USED BAL. 27 0 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 0 27 BARITE 25 KG RECD USED BAL. 640 105 535 535 535 95 440 440 440 440 440 440 440 440 440 440 440 440 440 440 440 440 640 200 440 ID PAC-R 50 LB RECD USED BAL. 44 44 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 44 44 0 ID PAC-LV 25 KG RECD USED BAL. 40 40 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 40 40 0 CMC-LV 25 KG RECD USED BAL. 40 25 15 3 12 8 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 40 36 4 JK-261 25 KG RECD USED BAL 10 4 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 10 4 6 SPERSENE 50 LB RECD USED BAL. 60 14 46 46 6 40 40 40 3 37 37 37 37 37 37 37 37 37 37 37 37 37 37 60 23 37 POLYPAC 50 LB RECD USED BAL 58 0 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 58 0 58 RECD USED BAL. 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 WELL: 'ERATOR: ncPORTFOR : OPERATION: _ 27-5-?4 L 24-oo /7&S 3^4-8 M ^4A7£57/c » / _ LOCATION: mim Per, 5//Z. ENGINEER: C.Mc K/J/GHT RIG No.: Rua/ <^<S. ATP 54? P. QLV. DATE: REPORT No.: 4 22 TIME: DEPTH: MUD-DATA EULDAIA MATERIAL USAGE Tune SAUD MUD Nd / M! GEL 8! Time /7oo 2o-oO Size t27r CAUST/C £O£>A 2 Depth m 3o4 3°4- Tvoe 2//4 £-!/A£ 4 Density ooa <?-O ?-<? Jets Viscosity sectat 4/ 40 Out (m) 304-8 PV co Metres 3oa-B YP ib/IOOft 2 Hours I/-5 Gels Ib/IOOft 2 Metres/Hr 26-5 API Rltrate ccs WOB /O-'S Cake 32nd RPM /So Sand %Vol Dev w Solid* «LVnl T?R-G J /-/- T H DAILY COST s ^2/7-//| Oil/Water •LV^ H CtIMIII.COST $ 2Z/7-//I nH 75 7-5 PUMP 1 2 Filtrate Pf/Mf Tvne e-p-eo 8-R-8O FCHIPMFNT Chloride 1 iner 6* Sl7R Hours Total Hard Stroke 8-s* 8 S' Shaker KCI % Bbls/Stk 0-0705 0-0705 Shaker w Rf/@°F Eff (%) 75 7S Desander Z./O' • • Sulphite mat

SPM 85 85 Desilter Rowline Temp. °C Bbls/Min 6-o 6-o Cfuqe Gal/Min 503 ~i 2 Pre** /neil 8Oo Rhls Madfi-?4 Hrs SCR Bbls Made-Cumul. — SYSTEM VOLUMES ANNULUS 1 DRII1 STRING Size ins /2'4’oy Size ins 45*of 4-S'^tu Hole ID ins 12-25 12-25 /2-25 Pipe ID ins 3-826 2.-77 2-8/25 Pipe OD ins 4-5 6-2S 8-o Capacity bbUlf' 0-0/42 0.0074, 0-0077 Ann. Vol bbttn 0-4/4 0-354 0-274 Section Lenqth m 127 55-5 /22-3 Section Lenqth m 182-5 ?l-5 30-8 Section Volume bbls 5? 1'4 3-/ Section Vol bbls 756 32-4 8 ’4 Row Type - •i. Vel. m/min 28? 33? 43 7 Pressure Drop - - — CritVel .. mAnin Theoretical Lag Stitt FlowTvoe - - Carbide Lap — stks Pressure Drop - - - Est. Averaqe ID. - ins Total Annular Volume 1/6 hhls 1 Total Strinn Vnli ime /o hhls Mud Volume in Hnle /2d hhls Surface Volume 500 bbls 1 Total Circulating Volume ^6 bbls Total Circulation Time 52 mins SYSTEM HYDRAULICS ACTIVITY SVSTFM PRFSStlRE nROPS £t/A. g.l 8,1 2-8’De ST*L A<£’ De. */<2 Surface psi DC d/Z^DP. Drill Strinq PSI Oo-oor/RG. 7><-, // Bit Jets PSI 604 2/rf> /rrnr Annulus psi .. Survey To ■j°4 ustoj Got- Hydrostatic Head & 304 8m psi 468 Spud M<jd. C,re. cleon. lA/tfor Equiv. Circulating Dens. ppg - K Z P. /. -MO P/ll- PoP. Jet Velocity nVsec 83-2 Jet Impact Force lbs 640 Bit HHP 177 stem HHP 235 | a> HHP at Bit 75 I HHP/sq. in 1-5 1 FIT. at Casing Shoe P”l — WELL: MAJESTIC # / LOCATION: ERATOR: MtM ?£T. EXAZ. ENGINEER: hcPORTFOR : C. Me K^lCHr RIG No.: OPERATION: up Bofj Are 54? S’ DATE: TEETrfowAM REPORT No.: A/C-X22 TIME: DEPTH: 28-5- ?4 2 24OQ tfAS 3C4-e m Tvne Time Depth m Density on Viscosity sec/ot PV YP mom 2 Gels tb/tooft 2 API Filtrate ccs Cake 32nd Sand %Vd Solids OilANater vm nH Sirin Filtrate PfitH ChlnrirtA mnd Total Harri mnt KCI % Rf/@°F Sulphite moi Flowline Temp. °c MUD DATA RIT DATA Nn Size Type Jets Out(m) Metres Hours Metres/Hr WOB RPM Dev PUMP 1 2 II Tvnfi e-P-eo e-e-eo I 1 iner 6* 6" Stroke B5* BS' Bbls/Stk OoloS O 0705 Eft (%) 95 95 SPM Bbls/Min fial/Min Press fnsh SCR MATERIAL USA 3E /V/Z- DAILY COST S x/z CtlMUL COST S 22 /?-// EQUIPMENT Size Hours Shaker Shaker Io Desander 2^/0' Desilter CTuqe SuSAeo Rhk Marie-24 Hrs Bbls Made-Cumul. SYSTEM HYDRAULICS SYfiTFM PRESSURE DROPS Surface psi Drill Strinq psi Bit Jets psi Annulus psi Hydrostatic Head psi Equiv. Circulatinq Dens. PPd Jet Velocity rrVsec Jet Impact Force lbs Bit HHP stem HHP « HHP at Bit HHP/sq. in F.l.T. at Casinq Shoe 22L SYSTEM VOLUMES ANNUL US fl DRILLSTRING Size ms Size ins 4'S'HW 6-2£'bC Hole ID ins S9ZJ Pipe ID ins 3-826 277 2-8125 Pipe OD ins 4-5 Capacity bw/m 0-04^6 o-0243 0-0253 Ann. Vol bbWn Section Lenqth m Section Lenqth m Section Volume ttrt Section Vol bbts Flow Type 1. Vel. nVmin Pressure Drop n$i Theoretical 1 an stks Flow Type Carbide Lac stks Pressure Drop osi Est. Averaae I.D. ins H Total Annular Volume hhk Total Strinn Volume hhk | Muri Volume in Hole hhk U Surface Volume bbls Total Circulatinq Volume bbls II Total Circulation Time mins ,sxsrauQkUMEs ANNUI US H DR LL STRING Size ins ?Wcst 8^oA 8Voti 1 $ ize ins 4^'DP 4-S" A inf 6-25*/>C Hole ID ins 8 72! 8-5 85 Pipe ID ins 3-826 2-77 2-8/25 PipeOD ins 4 5" 45 6 25 Capacity bbttn 0-0466 0-0243 0-0253 Ann. Vol bbl/m 0. ietz 0-/658 0/058 Section Lenqth m 332-2 55-S /52-/ Section Lenath m 278-3 87-4 152-1 Section Volume bbts 75-5 1-3 3? Section Vol bbls 56-4 /4-8 /6l How Type y 7" T i. Vel. rrVmin 37-2 42-5 66-6 Pressure Drop psi 3! 24 60 I Crit. Vai m/min 37 37 38 ft Thaoratiral I an 7234 sfks 1 Flow Tvoe •- u-■ 7- II Carbide Lao stks 1 Pressure Drop 3 L 4 II Est. Averaae I.D. — ins WELL: /nAJ5ST/c # / LOCATION: ORATOR : MtM ASTAQ/.Swrt £* ENGINEER : IMPORT FOR : C. Me K^/d//T ■RIG No.: OPERATION: P/g/ZZ/AAT dV HQi.5. AT££4tf OZ>>-5 Jt 22 DATE: REPORT No.:

TIME: DEPTH: 34-oo 1 MUDD Alfi 1 Tvn« KCI-M l77Y£\$tU& Time 20-00 24-00 Depth m 415 53? Density 00a ff-6* 0-0 Viscosity sec/at 28 27 PV a — YP moon 2 - - Gels wooft 2 — - API Filtrate as /V/r Cake 32nd - - Sand % vol 7> 7> Snliris v. vni /.0 2-4 Oil/Watnr (9fine) v. v«i -/9f -/97-& nH <?trir» //.. /O-5‘ Rltrata pfia O-8/o-t 0-4J0S ('.hlnriria /4.000 ISOoo Total Karri mM 450 3SO KCI % 2-9 3-o Rf 1 © °F 0-20*76 0-2.0(72. Sulphite mot — Flowline Temp. °c B1T_DATA No 2 Size 3-5" Type £704/7 Jets 3<// Out (m) /tJ Metres 235-2 Hours 7-5 Metres/Hr 3'4 WOB 20/25 RPM 120 Dev /° //Y MATERIAL USA 3E Kc/ 780 CAUSTIC sop A I 54QM PUMP 1 *> Tvna B~?-ffc> e-p-& G 1 inar 6' <4* | Simka 8-5" 8-5' I Bbls/Stk 00705 0-0705 Eff (%) ts ts SPM /DO Bbls/Min 7-OS Gal/Mln 2? 6 Press Insfl too SCR S jJqSlZs ~ I iulcqst s \47t7 4il FOIIIPMFNT Si7R Hours Shakar #W Shaker a6 °jteo - Desander 2+/0- Desilter SS S’* &vf/ Cluge Su/Aco Phis MariR-24 Hrs <too Bbls Made-Cumul. too Total Annular Vnlnma 87 hhls Total Strinn Vnh imn Surface Volume 700 bbls Total Circulatinq Volume SYSTEM HYDRAULICS SYSTEM PRESSURE DROPS Surface psi — Drill Strinq psi //S' Bit Jets psi t/5 Annulus psi 8 Hydrostatic Head 54^ psi 8// Equiv. Circulatinq Dens. ppq e-7 Jet Velocity m/sec /04 Jet Impact Force bs 45? Bit HHP 158 1 •stem HHP 755 1 m HHP at Bit 7 HHP/sq. in 2-78 F.l.T. at Casinq Shoe pop //-o 2/ hhls MiiriVnliimainHola /OA bbls 808 bbls II Total Circulation Time //S mins 1 ACTIVITY 8HA - 84, 3<t Sui, 56oc.k, Suii_ 2+6 St*6, /4*6 , 4i , DC~ /52-Im, &HwbiP- 55-5^. 2t7A /^AY: A/tfjJe uf- & t A. fresiur* test J>s,/I o4 Crni". || sJioc &•!/> 3*/o Ka &rf*e. f/T fo II ft} ywi/f4- fj O /?(A & £f• J)„// t to 54O*. /t!Otsfto/A \Zo/cJ^n^ w46 3 4 £ c f Ct4r t fy M /~6 osie Awaft evts* /ojt to ZsmsS TIrT RACEDANE PTY LTD DRILLING FLUID CONSULTANTS WELL: 'ERATOR: nePORTFOR : OPERATION: MAT£$T/C a / LOCATION: MtM PETPoievM ex. ENGINEER: C. Me Kmc//7 RIG No.: OP//.L/MC ATP 541P Q4P. DATE: 30-5-54 5. TPETpo^ REPORT No.: 4* Ol)>£ pfC * 22 TIME: 24-00 f/AS DEPTH: /OO^ M 42 hhk Mud Volume in Hole 207 hhls 70 7 bbls Total Circulation Time /Oo mins ACTIVITY —MUD DATA BIT DATA MATERIAL USAGE Tvna x<r/- fSAT.SQ/S. No 2 Time /0-oo 24-00 Size 85* KO/ /4-O Depth m 732 /OO 6 Type £tO 4/7 CAOSTfC $OT>A 4 Density DOO 8-1 1-0 Jets 3 < // r<2// 3 Viscosity sectat 3/ 33 Out (m) /M PV co 4 4 Metres 7o/2 YP b/IOOtt 2 5 /2 Hours 28 5 1 Gels briOOft 2 2/3 5/6 Metres/Hr 2A 6 API Filtrate as m/c m/e WOB 20/25 1 Cake 32nd — RPM /2O Sand %Voi 7~r 7> Dev '6. Solids IVfi 3-o 3-7 T-R-G Ld/ 4 2S32‘Odk Oil/Water «LVrt -/?7 -/963 . 8 CUMUL COST- s 73214/1 nH CMr /O 9-5 1 2 Rltrate PfM 0-3/04$ O-//0-3 Tvne 8-P-8O 8~P~ 80 EQUIPMENT Ghlnride /7ooo /7ooo 1 iner 6' 6* Hours Total Hard 3Ao 36o Stroke 8-5' 8-5' Shaker PS^/fftoo KG % 3-5 3-5 Bbls/Stk 0-0705 0 070s Shaker AS Eeqs> Rf / © °F O-20*72* 0-2.0*78* Eff (%) 95 95- Desander 2+/O* 24 An Sulphite mot SPM /oo Desilter 8*5' 24 Art Rowline Temp. °c Bbls/Min 7-05 Cfuae Swrtco 24 An- Gal/Min 2f6 f Press fast) /ooo Rhls Marie-24 Hrs 600 SCR Bbls Made-Cumul. 75oo SYSTEM V PJ.UH AES ANNUL US PR LL STRING Size ins 8K.-0H 8'6"oh Size ins 45't>P 45 n H/i 6-is'bc Hole ID ins 892/ 8-5 ff-5 Pipe ID ins 3- 826 2-77 2-8/25 Pipe OD ins 4^ 4-5 6-25 Capacity bbVm O-Q46& 0-0243 0-0253 Ann. Vol bbi/m 0-/812 0-/658 0-/058 Section Lenqth m 7?8-4 55-5 /S2-/ Section Length m 278-3 555-6 /52 / Section Volume bWs 371 /•3 3-1 Section Vol bds 56-4 12/ /A/ Row Type T 7" 7~ i. Vel. m/min 37 2 42-5 66 8 Pressure Drop psi 80 26 66 Grit Vel mtain 7/ 6 72 73 7 Thenrerinal 1 an 2 340 stirs Row Type L. 4 4 Carbide Lao — stks Pressure Drop osi 12 25 /2 Est. Average I.D. ins Total Annular Valuma Surface Volume

SYSTEM HYDRAULICS Surface psi Drill String psi /7Z Bit Jets psi 136 Annulus psi 49 Hydrostatic Head /006* psi /54S Equiv. Circulating Dens. PPP ?-2 f Jet Velocity rrVsec /04 Jet Impact Force bs 469 Bit HHP /62 1 •stem HHP /73 zo HHP at Bit 93 HHP/sq. in 2-84 F.l.T. at Casing Shoe // o 500 hhk bbls Total Sfrinn Volume TotaKirculatinciVolume 0HA ' ■(//tc/vojeJ - /57/zm, S5SM 3o-fh MAY ’ Srz// Kej fait - fithve so h<Yi so/*"”* Wt/7> kcJ ■f /* . a// SoAs/S co^/<»/ Ta 6nm f ^nc o/e*st7<j. 7?44<?J p//PA ( TKl&l) To p/oecv/e/e c/^sM Ct*4 fsnffove £&ltc/s /eftootfer/ 6~e <>'/'''P-je Of* / /eet/ JujA aY Y//nes fie t>o Ao/e ^a/u/nf — Surfac-eS /o&fes frttrt/rtitr/ -Mos//} 7Afo f^/>. J>e,// 7o /Oo6 zm . 1 MUD DATA BIT DATA materialusage Tvop KCJ-+/A7 No 2 Time (300 24 oo Size 35 KCL 50 Depth m //e? 1255 Type 570 4i7 CAUSTfC SODA 2 Density DM 7/ Jets 3+// 5K2.6/ / Viscosity sectat 35 33 Out (ml ItJ PV cc 4 4 Metres ?5/-2 YP IbrtOOft 2 /4 // Hours 475 Gels Ib/IOOft 2 5/7 4-/6 Metres/Hr 20 O API Hitrate ccs A7c =7“ a/c WOB 7-20 Cake 32nd - RPM /20-/SO Sand %Vo< Tr 7r Dev 4° Solids *L Vnl 37 4-4 T-R-fi T>Pl6 nAlt Y COST s Oil/Water «t Vri -/#3 - /?S-6 CUMULCOST $ 8384-oA nH <75 75 PUMP 2 1 Filtrate W/Uf OI/02E Of/ol Tvne 8-P- 80 8-P-QO EQUIPMENT 1 Chloride chaA /ASOO /69OO 1 in«r 6” 6" Sl7fi Hours | Total Hard 350 320 Stroke es' e-s' Shaker ? 1 KO ^ 35 3-5 Bbls/Stk 00705 O' 0705 Shaker ai °/S8o J 8 Rf/0°F O20s72‘ C>22 *72* Eff (%) 95 95 Desander 2^o< 24AU i Sulphite mot SPM /oo Desilter 8*S' Rowline Temp. °C Bbls/Min 7’OS Cluoe SAACO </ Aal/Min 2<?6 Press Insh /OOO Rhk Made-?4 Hrs 3Oo " . SCR Bbls Made-Cumul. / 800 ■WELL: MAJESTIC # / LOCATION: ' ’RATOR: /H / At Petroleum ex . ENGINEER: huPORTFOR : c. /Ac Krt/EHr RIG No.: OPERATION: D&I/.L//75 ATA 54? A OLD DATE: £ .■ REPORT No.: £>P »£ /g/tf * 22 TIME: DEPTH: 31-5-74 S. 24-oo Ate SYSTEM VOLUMES I Size ins — eVoH 8VOH Size uni ins ixaimmi 4’5/iP 4S'Hw 6-2S'OC Hole ID ins 89H 85 8 5 Pipe ID ins 3826 277 2 8125 I Pipe CD ins 45 45 6 25 Capacity bbVm 00466 00243 00253 Ann. Vol bbl/m O/R92 0/658 0/058 Section Lenqth m 70484 555 752/ Section Lenqth m 298-3 805-6 152/ Section Volume bbls 48? 73 3? Section Vol bbls 56-4- /33 6 76/ Row Type 7- 7" 7" Vel. mftnin 372 425 605 Pressure Drop P« 70 6 26 66 Crit. Vel m/mm 682 68-6 7^4 Theoretinal 1 an ^2 922 stks IRowTvoe L L. Carbide Laq stks 1 Pressure Drop psi // // Est. Averaqe I.D. ins I Total Annular Volume 206 1 hhls Total Sfrinn Volume 54 hhls Mud Volume in Hole 260 hhls 1 Surface Volume 400 | bbls Total Circulatinq Volume 660 bbls Total Circulation Time ?4- mins SYSTFM PRFSSIIRF DROPS I Surface psi i Drill Strinq psi !?8 Bit Jets psi 747 Annulus psi 55 Hydrostatic Head <? /256^. psi /?4? Equiv. Circulatinq Dens. PM W Jet Velocity rrVsec /04 Jet Impact Force lbs 474 Bit HHP 164 'temHHP 173 „ rlHP at Bit ?4 ? HHP/sq. in 2 87 F.l.T. at Casino Shoe PM // o SYSTEM HYDRAULICS QHA ■• /S2-/M t £>//<*JC>P - SS-5 3£*1 MAY ^f-t// S- 7*t? /Vj Zc?/c//>?e mz/ /X /owfr 7o^e^ Ao A. /flake /OiltY wi/>fr Tft/a - /)o^roj, D„/7 A o /256m. Cufresi 77y 7b SgSpVM A7ute/ 7o^S. fee 7c t a /<o/n A? O/) Y o/) 2/ fe ^ AM . Peeji7j 4/f// f'tcs-e+.s ss»y WELL: MAJEST7C 4 / LOCATION: r ~"RATOR: /m /m PETAOi-Evi^ £*• ENGINEER: h-r'ORTFOR : Al* KHtCMT RIGNo. : OPERATION: ATP 549 P <?61> DATE: E, TP5THou7AtJ REPORT No.: QV>-£ TIME: DEPTH: /- 6 - & 24 QO A AS 7/^f MUDDATA Tvoe KCt-/ ’o/.Yrte# Time opoo 24 oo Depth m 7329 747/ Density odd 9/ f-Z Viscosity secret 3/ 38 PV CD 7 6 YP W10W 2 9 9 Gels id/ioot 2 7/3 //3 API Rltrate os //2 70 Cake 32nd / / Sand xvoi Tr Tr Solids °<- Vri 44 5-2 Oil/Water t vn -/9S-6 - /74-8 nH stife 9o 9 5 Hitrate PtA« 0-7/02 O-lfo-25 Hninridfi

h*vi //ooo 77000 Total Hard. mm. 320 280 KCI % 35 35 Rf/@°F 0-27*75 0/9 '7% Sulphite mot 720 Flowline Temp. °c - — BIT DATA No 2 Size 85' Type 5727417 Jets 3* 77 Out (m) 77/ Metres 7/U'7 Hours 70 Metres/Hr /A-7 WOB 25 RPM 7o Dev /V J££i pete. PUMP 1 2 I Tvne 9-P-8O 8-P-8O 1 iner 6' 6' Stroke 85' 85- Bbls/Stk 00705 0-0705 Eff (%) 95 95 SPM 700 Bbls/Min 7- 0.5 Gal/Min 2 9 6 Press fnsit j! QO SCR MATERIAL USA( HE. KCt 700 CAUSTIC soda 3 U>PAc-7? 24 OS! 2 WMXCOST $ £ EQUIPMENT Size Shaker 8t ^)e/o° 24 Shaker ***/$ 8o 24 Desander 2+70 ' 24 Desilter 8 *5 24 Cfuae SWACO 24 \73282~93 Rhls Made-?4 Hrs Soo Bbls Made-Cumul. 23oo ANNULUS ! DR 11 STRING Size ins 9^csc 8V 077 8Vo# Size ins 4 5^ 45' 7/* 825*DC Hole ID m 892/ 85 85 Pipe ID ns 3826 2-77 2- 8725 Pipe OD ms 45 45 6 25 Capacity bbt/m 0-0466 0 0243 00253 Ann. Vol bbVm 0-/892 0/658 0-7058 Section Lenqth m 7263 4 555 527 Section Lenath m 298-3 7020 6 752-7 Section Volume bbts 58- ? 7-3 3 7 Section Vol bw$ 5*4 7692 /// How Type T T T Vel. m/min 3 7-2 42-8 64-6 Pressure Drop psi 740 28 73 62-9 63 />5'/ Thenretinal 1 an 3428 stks How Type L £. /AX Carbide Laa stks Pressure Drop os 1 ss- 70 Est. Average I.D. ins Z4Z ibis. 550 I bbls 72/ Total Strinn Volume ^ta^CirgjIatin^^lyme bbls mins bbls _ Mud Vnlnma in Mote bbls 11 Total Circulation Time Total Annular Volume Surface Volume ^4 856 Drill Strinq psi 247 Bit Jets P« 957 Annulus psi 54- Hydrostatic Head 7477s* psi 2307 Equtv. Circulating Dens. PPQ ^ 4 Jet Velocity itVsk /O4 Jet Impact Force bs 48o Bit HHP /6S - tem HHP 77o HHP at ■Bit 87 HHP/sq. in 257 F.l.T. at Casing Shoe 77 O SYSTEM PRESSURE DROPS Surface activity - /52/r*, 4/7WDP- 555sq '£>,'/// 8'if /&/* mvo 1 • 7~o 2*cT*aj* <//>^ &7w*f 5 / ■/27>4-r4 , adc&Jf>re rr}'t'fr J PAC A-A4ra7 *a/*7,f- fiAC J/rtcf 7*0 Budt vo/vfie /vff/ifr qa7a/tfost of KO~ Poe sursfj t~° 7477/*. at// So/ta/s Corjfr*/ opvffe r *e*f~ inereairaj ♦sf/fAtAy 7° 7 88 A • (Jrfc/i /st .- Volus* try/. Kci - Ztfz?*/ 7^/// fiu n f//// . .... ^ _ _ OS! (Svifh/4*) for corroj/o<* co/tM. WELL: AERATOR: mgPORTFOR : OPERATION: MAJESTIC it / PSTflOLEV* C. Af KdiCHT 2£/44/M5 LOCATION: ENGINEER: RIG No.: ATP549P. o/5> s. TPerHowA^ ov>-e Pic * 22 DATE: REPORT No.: TIME: DEPTH: 2-6 - ?4.. Z 24-00 HAS /S76 .MUD-DATA BITDATA MATERIAL USAGE Tvne KC! - poi-ms/t No. 2 3 Time /O-OO 24oo Size 8-5' 8-5 £54 30 Depth m /54O /57J Type ETD4/7 AT J22 CAUSTtC SOJ>A 3 Density oca 9-2 9-2 ' Jets 3 K // 3*/o OS t / Viscosity secrtrt 38 40 Out (m) /54O /a/ ID PAO A 2 PV CD 0 7 Metres 1235-2 36 /D/°A< z-zd 3 YP b/IOOft 2 9 /O Hours 79 6 Gels t/IOOft 2 / /4 1/5 Metres/Hr f£-6 6 API Filtrate as /O -5 /o-s WOB 25 3o 1 Cake 32nd t / RPM 9o 85 - Sand %Vd Tr Ts Dev /V Solids «LVrJ 5-2 5 2 T-R-G 2-3- T VA/.C fl DAILY COST $ OilAWater tVfil -/W - /K-g fl CUMUI.. COST s 1 nH Strin ?-o 9-5 PUMP 2 ' Filtrate rwi o-os/oj 0-//o2J Tvda 8-P-8° 8-P-do EQUIPMENT (:hlnnde 16SOO /6Soo Liner 6" 6* St7R Hours Total Hard 320 32o Stroke 8-5' 8-5' Shaker e *7<s«>° /6 KG % 33 3-3 Bbls/Stk 0-0705 00705 Shaker S6 °/sso /6 Rf/0°F O2o«73 0/9 r70 Eft (%) 85 95 Desander Zr/O' /6 Sulphite mat /oo /0O SPM 95 Desiller 8,5' /6 Flowline Temp. °C Bbls/Min 6-7 Cfuqe SidHcO ALC-5O !25K fial/Min 28! Proas iosi) /45O Rhls Made-24 Hrs /So SCR - Bbls Made-Cumul. 24-50 SYSTEM VQLUF AES ANNUL US DR USTH1NG Size ins W'cu 8VOH Q'6'oH Size ins 4-S'D? A S' f 625'bC Hole ID ins 8<?zr 85* 0-5' Pipe ID ins 3 826 ^77 ~ 2- 0/25' Pipe OD ins 4'5' 4-5‘ 625" Capacity bbVm 0-0466 0-0243 0-0253 Ann. Vol bbVm 0-/8 7Z 0-/658 0-/058 Section Lenqth m /323-2 54? /97-9 1 Section Lenqth m 2983 /O79-8 197-9 Section Volume bbls 6/2 /•3 510 I Section Vol bUs 564 179 20-9 Row Type 7~ r y n. Vel. ntfmn 353 4o-4 63-3 Pressure Drop

PSI 137 26 ?O H Grit VpI 63 63-4 66-7 Theoretical Lan 3631 stks i Flow Tvoe 4 L Carbide ■Laa stks 0 Pressure Drop ? 37 I? Est. Av eraae I.D. ins bbls Mud Volume in Hole Total Circulation Time . bbls 824 I bbls .Total String Volume Jota[CiraJlatin2 i \/ol| i m hhls mins Total Annular Volume Surface Volume 3Z4_ JUL SYSTEM HYDRAULICS SYSTFM PRESSURE DROPS Surface psi Drill Strinq psi 253 Bit Jets psi 1263 Annulus . psi 5? Hydrostatic Head <• /S76 E2L 24 74 Equiv. Circulatinq Dens. ppq ?-4- Jet Velocity nVsec H? Jet Impact Force lbs 523 Bit HHP 207 1 "'-'stem HHP 238 • , 0 HHP at Bit 87 HHP/sq. in 3-64 1 F.l.T. at Casinq Shoe ora H-o ^OQ I bbls QUA 2*6£'Jk.~S+*6, /97?*/ {//Mf-545*. 2nd S(J At£ ■■“Drill 5- Ctrc. PoH - sOtnor P I P . Was 6 »• /“««**•» £©//q m to iS4> O M /v 3 ht XoA. ■IO M to . DhII to 1576 M WELL: M ATESTtc 4 / LOCATION: r 'RATOR : a</ai Pento^s-usi ex. ENGINEER: huHORTFOR : c, /Ac Knicht RIG No.: OPERATION: VAICC/aC ATP 54^ P QL-T) DATE: 3-<6- 74 £ . TAE'TjVO^A/^ REPORT No.: OT>>e A/C # 22 TIME: 24- oo HAS DEPTH: 7729* MUDDATA RIT DATA MATERIAL USAGE Tvna KCi- P wmgp No 3 Time U'OQ 24 00 Size 8-s *££Z 7d? Depth m /65O /7Z1 Type ATT22 CAUST/C SODA 2 Density ooa ?-3 9-2+ Jets 3-HO OS! / Viscosity 50001 43 39 Out (ml /// ID PAc-A 2 PV co /2 9 Metres 189 ID PAC~IV Z YP ib/lOOtt 2 /7 // Hours 27-5 Gels iwioott 2 2//2 2/3 Metres/Hr 6-9 API Filtrate ccs /£•«> 70 WOB 38 Cake 32nd 2 / RPM 75 Sand %va 7> 7r Dev 2/4° Solids *l vni £8 £2 PA/C DAILY POST S 1 229.S-M i CUMlll.. COST S \i'682o4A AilANatar «l \m -/94-2 -/?4-8 I nH Shin 9£ 90 PUMP 8-p- 80 3-P- 80 Filtrate PMtff O/Jo-ZS 0-7/o-3 Tvne EQUIPMENT Chloride 7££oo /7£oo 1 iner 6* 6* Si7e Total Hard mM 240 240 Stroke 8-5* 8-S 1 ’ Shaker 24 KCI % 3-5 3-7 Bbls/Stk 0-070S 0 07&5 Shaker 860/S80 24 Rf/@°F O-ZO »7o O- t9c7E Eff (%| 9S 95 Desander 2<./o" 24 Sulphite mot 8° /oo SPM 95 Desilter 8>S' 24 Rowline Temp. °c 6! Bbls/Min 6-7 Cluqe SwAco ^4 Gal/Min 28/ Bb Press Insit /45O Is Made-24 Hrs 3So SCR Bbls Made-Cumul. 28oo SYSTEM VOLUMES 1 ANNULUS DR 11STR1NG Size ins ‘He'csc &L'OH W ok Size ins 4 5 DP 4S'H* ' 6-2s'dc Hole ID ins 8921 8-/7 8-S' Pipe ID ins 3826 2 77 2- 8t2£ Pipe OD ins 4£ 4£ 6-2£ Capacity bbi/m O-O46& O.0243 0-0253 Ann. Vol bbi/m 0-/892 O- /S£8 O' /0£8 Section Lenqth m 747C-2 54-9 797-9 Section Lenqth m 2983 12328 /97-9 Section Volume bws 68-8 /•3 5-0 Section Vol bws £64 204-4 20-9 Row Type 7" T“ T~ . Vel. m/rrun 3S-3 4°-4 63-3 Pressure Drop /60 28 94 7O'4 7! 75 Theoretical Lao 4000 stks Row Type Z. L Z. Carbide Lag — stks 1 Pressure Drop osi // 5Z /6 Est. Average I.D. - ins Total Annular Volume Surface Volume 282 hhls Total Strinfi Volume £00 bbls Total Circulating Volume SYSTEM HYDRAULICS Surface psi Drill Strinq psi 282 Bit Jets psi J263 Annulus psi 71 Hydrostatic Head psi 27/4 Equiv. Circulating Dens. ppq Jet Velocity nvsec 111 Jet Impact Force ibs 523 Bit HHP 207 'tern HHP 246 HHP at Bit 84 HHP/sq. in 3-44 F.l.T. at Casing Shoe txxj IL° 75 hhls Muri Volume in Hole 3£7 hhls 8£7 bbls Total Circulation Time /28 mins ACTIVITY &HA - 6^0^- £4'?'*. 3r4 - 2> rt 1/ 9- SUfV . /ftftfr)/om Z=/-o*r» /^2om frluJ c/ewfy /ej** /aittreue ffof'Al), t>p 7b £0-60 y< z //z-*74 /^jv ViJCoJffy 7fe Z5-/4rcj. A<s> cA^-^e^ '* c/fW+q hasJorjs «*' Mc/njcj). /#*$ o/*J ty*- &/„7e4 Syrfcs* *'/*/ ^(/-P 4C ^^rr- /7oo^. 7?^// *> r729"t WELL; MA7SS7/C a / LOCATION: ORATOR: /M//M Perftoi-gri//^ £x. ENGINEER: ...PORT FOR : C. Ale Kt/lCf/T RIG No.: OPERATION: dp ill /a/g ATP ^4 9 A 4tJ> DATE: ^"^-74 5. TASTHo^jasU REPORT No.: 9 O.J> e PIG # 22♦ TIME: 24'Oo/rfS DEPTH: / 855 At Q Tvne KCL -> %>L)7n&P No 3 Time 24-0# Size 8-5 ’ KCi Ao Depth m /7?P / 255 Tvoe AT7 72 CAUSTIC 4O3>A 2 Density Doa ?-2+ 7-2 Jets 3+fO OS! 1

Viscosity secrat 37 41 Out(m) /H /J> PA C P 4 PV co 8 8 Metres 3/5 ID PAC LU 6 YP ayiooft 2 /O // Hours 49-5 Persco 6 Gels Ib/IOOft 2 l/8 2//0 Metres/Hr 6-4 API Filtrate ccs H /O-5 WOB 38 Cake 32nd / 2 RPM 70 Sand %Voi 7> Tr Dev if .Snliris «L Vnl 5-2 5-7 T-R-G DP LG B DAILY COST S 268/-5*\ Oil/Water »£Vd - /9a-b - 794-8 1 CUMULCOST $ l^oz-ts^ nH '<?-o 9-0 PUMP 2 Filtrate Pf fluff o-t/o-3 (h/o-3 Tvne 8-P-Qo 8-P-8O FritllPMFNT I i.nloririe mnA / gOOO /8OOV liner 6" Sire Hours Total Hard 2oo 220 Stroke 8-5 Q-5’ Shaker 880//H00 23 KCI % 3-8 3-8 Bbls/Stk 0-0705 0- 0705 Shaker 8i*7&ioo 23 Rf/@°F O-/8 *78 0/8*75 Eff (%1 75 75- Desander 2*iO' 23 Sulphite mol 80 /OO SPM 85 Desilter 23 Flowiine Temp. °c 64 Bbls/Min 6-7 Cluae SWftCO 23 Gal/Min 28! Press fecit /5oo Rhls Marie-24 Hrs 300 SCR Bbls Made-Cumul. 3/oo SYSTEM VOLUMES n PR LLSTRING Size ins 8Voh 8V0H 1 Size ins 4-5'dP 4-5 Hw 6 -25'DC Hole ID ms 8-92! 8-5 8-5 1 Pipe ID ins 3-826 « 2-77' 2-8125' Pipe OD ins 45 4-5 6 25 Capacity bbVm 0-04GG 0-0243 0-0253 Ann. Vol bbl/m 0-/892 0-/658 0-/058 1 Section Lenqth m /6o2- 2 54-3 /97? Section Length m 278-3 1358-8 /97? Section Volume bbls 74-7 1-3 50 Section Vol bbls 564 325-3 20-9 Row Type 7“ 7 7" •!. Vel. mflrin 35-3 4-0-4 63-3 Pressure Drop PSi /7/ 27 . 72 1 ftrit Vel 67-8 7a-4 74 Theoretical 1 an 4297 stks I Flow Type L. L L. Caibide Lao — stks 1 Pressure Drop DSI V 57 /Z Est. Av eraqe i.D. ins 393 bbls bbls. bbls Muri Volume in Hole Total Circulation Time 884. bbls mins Total Annular Volume Surface Volume bbls Total Slrino Volume T^^rajIatingVolynje SYSTEM HYDRAULICS SYSTFM PRFSSIIRF nROPS Surface psi Drill Strinq psi 290 Bit Jets psi /263 Annulus psi 94 Hydrostatic Head psi 29// Equiv. Circulating Dens. PM 9-4- Jet Velocity mfsec HI Jet Impact Force lbs 523 Bit HHP 207 1 "'stem HHP 246 HHP at Bit 84 HHP/sq. in 3-64 F.l.T. at Casinq Shoe H-O 1S4 /32 ACTIVITY &HA /?7-7/w■ .SX Ji'A'f - ZDrt/l 9 surt'ej To /854 M - jy-tf i~o /52o A - />o/e yoo«/. T> rt // To /S$5m ■betsty aj^-c7<^ fag cfatjS /S' *- /MJ- ' fi,.„d K + A~/ of ..u K' US.J. ,0 M AO z # ./ ? 7./Z" defers too ./ <?/*£> ' 3’ , 5-6-94 /g> 24 -oofNts !?68-4m WELL: MAtest/C a / LOCATION: ■ ■'ERATOR: At/At AStRulev^ £~x. ENGINEER : IMPORTFOR : 0, &££TSofr RIG No.: OPERATION: DRILLING AT? 549 P OLD DATE: £. TAETHoMN REPORT No.: QP'E RIG *22 TIME: DEPTH: MUD RATA RIT DATA MATERIAL USAGE Tvne . KOI - Ac 4/mN? No 3 Time i3-oo 24-00 Size 8-5* KC/ 70 Depth m /ft?Z 1968 Type ATT2 2. CAUSTIC SODA 2 Density DM 9-2 9-/+ Jets 3+/O os I ... / Viscosity secrtrt 38 38 Out (m) ID AAc R 4 PV ca IO 9 Metres 428-4 /Z> AAC L\/ !2 YP IbHOOft 2 // // Hours 7o-S Desco 6 Gels fc/tOOft 2 2/io 2/9 Metres/Hr 6/ API Filtrate ccs // S'-2 WOB 38 Cake 32nd 2 / RPM 65 Sand %Voi Tr 77 Dev !‘4> Solids <tVnl 5-2 4-5 -T-B-G DRLC. 1 DAILY COST $ 3875 Ail/Water V. Vol - /Hd-e - /95-S CUMULCQST$ 23377-77 nH Sirin 8-5 9o PUMP 1 2 1 Filtrate MAH Tr/o-25 O-t/o-3 Tvne a-p-eo 0-P-8o EQUIPMENT (;hloride rr^A /7SOO / 0OOO 1 iner <r 6* Size Hours Total Hard. rml 220 2oo Stroke 85' 8 5 Shaker 88o/£tov 24. KCI % 38 38 Bbls/Stk 00703 0070S Shaker 8£o/&f>o 24 Rf / Q °F 048 « 78 O48'76 Eff (%) 95 95 Desander 2+to ’ 24 Sulphite mot So /O 0 SPM 9.5 Desilter 8y S' ...24 Rowline Temp. °C Go Bbls/Min 6-7 Clune SWACO 24 At C so 125K Gal/Min 28/ Press Insh /SOO Rhls Made-24 Hrs .800 SCR Bbls Made-Cumul. 34.00 SYSTEM VOLUMES 1 ANNULUS 1 DRII L STRING I Size ins ‘Wat 8V0A 8%,'OH Size ins 4^ DA *S*AU7 6-25'be Hole ID ins 8-92/' 05’ 85' Pipe ID ins 3-826 277 2-8125 1 Pipe CD ins 4-5 4-5 6 25 Capacity bbl/m 00*66 0 02*3 0.0253 Ann. Vol bbt/m 0-/892 0/658 0-/038 Section Lenqth m /715-t 54-9 /97-9 Section Lenqth m 298-3 /472-Z /97-9 Section Volume

bbls 79-7 / 3 SO Section Vol bbls 5G-4 2441 20-9 Row Type T 7" 7- ( Vel. m/min 35-31 ■4°'4 -G33 Pressure Drop EL 185 27 . 93 Crit.Vel m/nwn 7o-7 7/3 75-6 Theoretical 1 an 4A 95 slks Row Type 4 L. L Carbide Lao stks Pressure Drop // 6° . Est. Averaqe I.D. ins Total Annular Volume 331 hhls Total Strinn Volume 8/ hhls Mud Volume in Hole 417 hhls Surface Volume 55° bbls Total Circulating Volume bbls Total Circulation Time '44— mins SYSTEM HYDRAULICS SYSTFM PRFAA1IRF DROPS Surface 25L Drill Strinq psi Bit Jets psi /249 Annulus psi 87 Hydrostatic Head 4 / 962* psi 3056 Equiv. Circulatinq Dens. PM 9-3^ Jet Velocity nVsec //9 Jet Impact Force bs 5/6 BitHHP 205 ’ stem HHP 246 1 HHP at Bit 83 HHP/sq. in 3-60 F.l.T. at Casino Shoe pmI I/O ACHYITY BhA /97 9& t 6tf<NoA- 549* 5fr - 'JJr-f // 4>st2 to /?&8-4*. cort^N 7o wscost/y rArcr^A frit T& fry l77<9,/>'a">eS ' <c/ 3 S'- 4 4. RtJ<t"2 Z /Z ^ Z * /< ’ xf * f °“' prior fr dr<//<*y i*/* tt* //<*"/frst Sdfrf. WELL: MA5ES77C Ji / LOCATION: 'ERATOR: ai/a1 ENGINEER : nEPORT FOR : BeersosJ RIG No.: OPERATION: l/V # 4 ATf 54? < 4>6ZL 5, o p» e fi.lC # 22 DATE: REPORT No.: TIME: ■DEPTH: _6-6-94 IL 24-QQ HAS 2083 MUD DATA BIT DATA MATERIAL USA Tvnp KCI - A 047me a No 3 4 Time H-oo /8-oo Size 8-5 8-3 KCI 60 Depth m 2o6C 2083 Type AT 522 A7733 CAi/sr/e soda 2 Density ooa 9-2 9-2 r Jets 3^/0 3+/O OS/ Viscosity secret Lo 40 Out (m) 2083 iDAAc- A 4 PV CD // /! Metres 343 ID AAc-ty 9 YP nyioott 2 // // Hours 88 BAcAah iH 2 Gels MOOft 2 z Ao 2 hi Metres/Hr 6-2 8AAK7ZS 2S^ 3o API filtrate cos 78 8-4 WOB 38 1 Cake 32nd / I RPM 65 i Sand % Voi 7r Tr Dev 2* I Sniiris KVri .5-2 3-2 T-B-G 1 lILYCOST s 8/27-4Z\ Oil/Water •LVri -/?4- 0 -/?48 CUMUL COST s 1 nH Rtrin '9-o 9o PUMP 1 2 II filtrate PfAM o-osfo-3 o-f/o-3 Tvne 8-P-8O B-P-8o\ EQUIPMENT Chloride 18000 /8ooo 1 iner 6" 6* Size Total Hard /6o /6o Stroke 83 83 Shaker 78 KCI .28 34 Bbls/Stk 0-070 3 0-0705 Shaker 860/A/00 /8 Rf/0°F 0-/8 *74 0-18*76 Eff (%) 93 75 Desander 2+ /o' /8 Sulphite mat 80 Po SPM 75 Desilter 8*3' /8 Flowline Temp. ?C 6/ Bbls/Min 6-7 Cfuae 5 WACO /8 AlCSo /OOK Gal/Min 28! Press fnsil /3oo | Rhls Marie-24 Hrs 3oo SCR 1 Bbls Made-Cumul. 3700 SYSTEM VOLUMES ANNULUS DR! LL STRING Size ins 8VM 8t‘on Size hs 4 WDA 4'Vl/W 62S'DC HotelD ins 8-92/ 8-5 8-5 Pipe ID hs 3-826 2-77 2-8/25 Pipe OD ins 45 4-5 6-25 Capacity bbi/m O-0466 0-0243 0-0253 Ann. Vol bbttn 0-/892 O-/&58 O/o58 Section Lenqth m 1829-9 54? 197-9 Section Lenath m 2783 /S86-5 m-9 Section Volume bWs 85-3 /-3 5-0 Section Vol bbts 56-4 263 2o-9 Flow Type 7* 7- ~7~ n. Vel. rrVmin 35-3 40-4 63-3 Pressure Drop p5* 208 28 ?8 CritVel mAnin 7/-5 72 77 4 Thenrptinal 1 an 4823 stks Flow Tvoe L 4 Z Carbide Lao stks Pressure Drop OSf // 68 /7 Est. Av araqe t.D. ins Total Annular Volume Surface Volume 34=0 22^ ibis. bbls 1 SYSTEM HYDRAULICS SYSTFM PRESSURE DROPS I Surface DSi I Drill String PS* 334 Bit Jets P« 7263 Annulus ps< I Hydrostatic Head P$i 3269 Equiv. Circulating Dens. ppa 74 4 1 Jet Velocity rrVsec n9 Jet Impact Force lbs 323 Bit HHP 207 11 •stem HHP 246 1 ™ HHP at Bit 84 HHP/sq. in 3-64 1 F.l.T. at Casing Shoe PM I/O Total Siring Volume T^aLCiroilatin^Volume _22. 732 .bbls. bbls Mud Volume in Hole Total Circulation Time 432 J3Z hbls mins ACTIVITY 6///I ■■Ltoe&rojea/ - 6/fU/P/ 9 — 54'?^ J-ua/e - 7s 2083 M. // V iJCos.t'hj 9 /t/h’*?'* /ojs w ,th v t- pA C ctJc/eK 7~v co*h<^>7 AotA rl^foloc^ 9 -pt ///w/* . ?J^ tn *h*o/’ Lb A O'<7 erf PecP** WELL: ERATOR: kEPORTFOR : OPERATION: Al/irfST/c * / Pt* 5. B55TSC*/ p^/zz-za/^ LOCATION: ENGINEER: RIG No.: ATfi /=-. Tter/foMAfJ O 'D'r 5 X/g # 22 DATE: REPORT No.: TIME: DEPTH: MUD DATA Tvnp KCI -i Time 13-00 2.4*>o Depth m 2/31 2/67

Density DOO 9-2^ 72 + Viscosity seo'at 40 42 PV co n // YP IbftOOtt 2 /Z /A Gels Ib/tOOft 2 2 7u 2/p. API Filtrate ccs 8-4 ff-e Cake 32nd /rx 2 4a Sand % Vol Tr 77 Snliris \lri 5-T 5-2 Oil/Water •LVli - /?48 -/94B nH ^trin 8‘5 75 Filtrate PfflJf 7>7o-33 o-t/o-4 Chloride T»hA !9ooo /<?0O9 Total Hard rrvxrt t4-O /2O KCI % 4-0 4^ Rf/Q°F O-/6e78 0/7*72 Sulphite nxjl. %o /oo Flowline Temp, °C 66 I BIT DATA No -4 Size 8-5 Tvoe ATT33 Jets 3*/o Outfm) /S Metres 83 Hours 2/ Metres/Hr 3-7 WOB 38 RPM 65 Dev /* ll££ pgx 6 I PUMP 1 8-P-8O Tvne R-P-8O 1 inar A' 6 ' Stroke 83' 8-5' Bbls/Stk 0-0705 0-0705 Eff (%) 95- 95 SPM 75 Bbls/Min 6-7 Gal/Min 28/ Press tnsh /5oo SCR MATERIAL USAGE Kci 7 a CAlf.STK SOOA 2 04 / / ( ID PAc-A 2 C potPpAC 3 ( WPAc-tV 3 C cmc-ts 3 DESCO 6 | DAILY COST $ 2&/e-7<?\ II CIJMUL. COST S 29324-!B\ Size Hours 1 Shaker Sgefarto 2/ Shaker 2/ | Desander 2+/o' 2! 1 Desilter 8*5' 2/ Cluqe Sv/ACO 2/ 1 Rhls MadP-94 Hrs .300 1 Bbls Made-Cumul. 4000 i jTaicnn.uLur 1 ANNULUS, Dffl LLSIRINfi 1 Size ins ?%'es& 76'oH 8Vo* Size ins 4‘6 n VP AZ' pc Hole ID ins 8-72! 8-5 9-5 Pipe ID ins 3-826 2-77 2-8/25 1 PipeOD ins 45 4-5 6 ZS Capacity bWtn 0-0466 0-0243 0-0253 Ann. Vol bbWn 0-/872 0-/658 0/058 Section Lenqth m Z7/3-2 54-7 /97-7 I Section Length m 278-3 7667-8 177-7 Section Volume bbls 877 P3 5o 1 Section Vol bbls 56-4 276-8 2o-<? Row Type 7“ T~ 7“ ,.i. Vel. nVmin 35-3 4o-4 63-3 Pressure Drop 2/8 28 78 Crit Vel m/mn 77 9 8o-4 856 Theorefinal Lao 5O2J stks Row Type 4 4 z Carbide Lao stks Pressure Drop P* /2 80 /e Est. Average I.D. ins Mtid Volume in Hole Total Circulation Time bbls bbls Total Annular Volume 354 hhls Il Total Strinn Volume 95 Surface Volume 5>o bbls H Total Circulating Volume 747 SYSTEM HYDRAULICS Utils. mins Surface psi Drill Strinq psi 344 Bit Jets psi /Z63 Annulus psi I/O Hydrostatic Head 2 2166 m. psi 34oo Equiv. Circulating Dens. PPd ?-4-* Jet Velocity rrVsec H7 Jet Impact Force lbs 523 Bit HHP 207 'Stem HHP 246 I] % HHP at Bit 84 II HHP/sq. in 3-64 II F.l.T. at Casing Shoe J- H-O PRESSURE DROPS 3HA -Ufick«v<7- 177 7^, 6//*'Df-54-9*. 7l*7> J'C'aJE' : £///, msbtjA ■kftfu'n. 7?f-f 77 *- Scsr -fo 2/5 £ M P/J/perj/re /or/niP'-* ^7t/7 > Tt/fwA* /oft. ^7*0 Xr/

/<=> /^r Isn^ror*. 7,7/7/^^. Use 7ps<o 7<> c^7^7 y/ j7rfrj7/j. M WELL: RACEDANE PTY ■LTD DRILLING FLUID CONSULTANTS MAjesT/c # / LOCATION: TERATOR: M/Mf>£* ENGINEER: rtEPORTFOR : 6. eesrsos RIG No.: OPERATION: J/?/Zz/a/^ A re S4<? A. <?n> DATE: 8-6 s. REPORT No.: /3 <?!>>£ 8/6* 2Z TIME: 24-oo DEPTH: 22 58* hhls Mud ■Volume in Hole 469 bbls II Total Circulation Time 745 Total Annular Volume 36 9 hhls Total Strinn Volume Surface Volume 5oo bbls Total Circulatinq Volume SYSTEM HYDRAULICS SYSTFM PRFSSIIRF DROPS Surface psi Drill Strinq psi 348 Bit Jets p$i 726 3 Annulus psi 7/0 Hydrostatic Head e 2258^ psi 3544 Equiv. Circulatinq Dens. ppq <9-43 Jet Velocity m/sec 7/8 Jet Impact Force ibs 523 Bit HHP 20 7 ystem HHP 262 ft HHP at Bit 79 HHP/sq. in 3- 64 F.l.T. at Casinq Shoe ppq IL° 242 MUDDATA BIT DATA MATERIAL USAGE Tvne KC/- fc/rinc/l No. 4 Time /S'OQ 24.-00 Size e-5 KO/ 70 Deoth m 22/8 2258 Type ATT33 ohst/c SO^A 3 Density pop 9-2 9-2 Jets 3-//O 05/ / Viscosity wotat 4/ 40 Out (ml /*/ Poir/toc 9 PV CD io to Metres 775 cmc-z^ 4 YP MOOT 2 /Z /2 Hours 44 £p£AS£/Z£ 8 Gels MOOT 2 2/U 2 ho Metres/Hr 3-9 API Hitrate as ti'-O 8-4 WOB 4Z Cake aaid / / RPM 60 Sand %Vd 7> 7> Dev %. Solids •LVnl 52 5-2 T-B-G 88/6 1 H DAILY COST s 3 377-on Oil/Water •LVft -/?4-8 -TZ-e H CUMULCOST s 327O3-Z& nH Ctfta '9-5 9-5 PUMP 1 2 Filtrate w/m O-j/o-AS 0-1/04 Tvno 8-2-80 8-e-eo I FOtllPMFNT Chloride mrrf foooo ZOooo 1 tner 6* 6' Total Hani &o ffo Stroke 85 85 I Shaker 88*/8/*o 24 KCI % 4-0 4.0 Bbls/Stk 0-o7o5 0-0705 Shaker 6&>/8/oo

24 Rf/@°F o-/6*72 0/7*7% Eff (%) 95 95 I Desander 2i-/O' 24 Sulphite mat /QO 80 SPM 75 I Desilter 8^5' 24 Rowline Temp. °d 62 Bbls/Min 6-7 I Cfuqe SWA co 24 Gal/Mtn 287 Press tnsit /6°o Rhls Made-24 Hrs 350 SCR Bbls Made-Cumul. 4^2— SYSTEM VOLUMES ANNULUS DRILL STRING Size ins 8*6 05 8*6 oh Size ins 4^02 4 *5 //i*' ’ 6't DC Hole ID ins 8-92/ 8-5 8-5 Pipe ID ins 3-826 2-77 2-8/25 Pipe OD ins 4-5 4 5 6>-Z5 Capacity bWm 0-04.66 0-0^43 0-0 2£3 Ann. Vol bUAn 0-/892 O- /658 o/ose Section Lenqth m 2005-2 54-9 797-9 Section Lenqth m 298-3 7767-8 1979 Section Volume bbls 934 7-3 5-0 Section Vol bbls 56-4 292/ 20-9 Row Type 7- ~T -r i. Vel. rrVmin 353 40-4 633 Pressure Drop P?L 224 28 76 CritVeL m/min 73-7 74-4 79 Theoretical I an 523 4 stks Row Tvoe 4 4. 4 Carbide Laa stks Pressure Drop psi 8/ 78 Est. Averaae I.D. ins bbls mins ACTIVITY BHA - UocA 7<?7- 9/rt J - 54 8?6 5t//4£ : J/f-t// » -SvrSetj 9o 2.258 Vertsthj * ^-fccuz/y /nc/me 7rtr*s//< ■5*c//ort - -fre+ZrJ ^7// Zoo 66/ presmy. a/Zrr aforttp/rtj £ /O&46/. PtiC Zo feZuet 1~q 2 ccS . WELL: "RATOR: hePORTFOR : OPERATION: VQ.ILL///6 LOCATION: ENGINEER: RIG No.: Ave 549 f , qzJ) 5. -t^stho^a/ ot>* 5 * 22, DATE: REPORT No.: TIME: DEPTH: 9-6-74 /4 24 'QO 2374^ MUD_DATA TvnA KCl-P OLY/OSA Time U-OO 24.00 Depth m 2325 2374 Density dm 9-2 + 9-3 Viscosity sec/ct 4t 39 PV CD !O 9 YP iwiooft 2 /2 // Gels moot 2 2//2 2//O API Filtrate os 7-8 7-4 Cake 32nd / / Sand %vd 7> 7> Anlids t VrJ 5-2 ^7 Oil/Water «t vni -/94.-S - /%t-3 OH Strin 95 ?O k Filtrate maw 0//o5 w/fi-S j Chloride 19s*>o 2oooo 1 Total Hard. rr«t /oo /6o | KCI % 4° 4-0 Rf/Q°F O l7 *72 O-f7ftt 1 Sulphite moi 8o /OO I Rowline Temp. °c 66 | 1 BIT DATA Ho 4 Size 8-s TvDe ATT33 Jets 3*10 Out (m) Metres 29! Hours 66 Metres/Hr 4-4 WOB dZ RPM 6o Dev J&G D/Ut MATERIAL USA 3E KC/ •? ■CAt/OT/C 30t>A 2 OSf / POiYfiAC IO cmc-Ltf to Tvne 1 2 e-p-eo /3-A ffo 1 iner 6* Stroke 85' 85' Bbls/Stk O- 0705 0 0705 Eff (%) 95 95 SPM 95 Bbls/Min 67 Cal/Min 28! Press Insil /675 SCR DAILY COST $ 3425-44 CUMUL COST S U/ZB-B9 I EQUIPMENT | St70 I Shaker ggo/sso 24 Shaker B8o/2loo 24 I Desander 2+/o' 24 Desilter 8*5* 24 I Cluqe SW)CO 2* Bbls. Made-24 Hrs Bbls Made-Cumul. SYSTEM VOLUMES Size ins nnnw 9%8<sg UJ 8*1.0# 3*a.o// Size um ins 4*6. HW 6^4 Hole ID ins 8-92J 3 5 3-5 Pipe ID ins 3-8Z& 2 77 2-8IZ5 Pipe OD ins 4-5 45 6-25 Capacity bbl/m 00466 0-0243 0 0253 Ann. Vol bbkm 0/892 0/658 0/058 Section Lenqth m 2121-2 549 7979 Section Lenqth m 2983 /S77-8 797-9 Section Volume bbls 98-8 / 3 50 1 Section Vol bbls 56-4 3U3 2o-9 Row Type 7* 7- 7~ 1 Vel. nVmin■ 353 40 4 633 Pressure Drop ret 234 23 96 Grit Vel mJmin 7o 7o-4 74-6 Thenretinal 1 an 5^/3 stks Row Type 2. Z c Carbide Lac 6 800 22 8^44 stks Pressure Drop psi U— 80 76 Est. Average I.D. 9-4' ins g Total Annular Volume 339 hhls Total Strinn Vnlume /OS hhls 1 Mud Volume in Hole 494 hhls 1 Surface Volume 500 bbls Total Circulating Volume 994 bbls Total Circulation Time /‘LS- mins SYSTEM HYDRAULICS niaietn rnrnaune unurc Surface esL Drill Strinq psi 358 Bit Jets psi 7277 Annulus PSi 70-7 Hydrostatic Head psi 3767 Equiv. Circulating Dens. PPQ W Jet Velocity rrVsec //? Jet Impact Force lbs 528 Bit HHP 2o9 'Stem HHP 275 j| /o HHP at Bit 76 1 HHP/sq. in 3-70 II F.l.T. at Casing Shoe //o ACTIVITY a -• - /77-7/w, j(#/s . Z>,// mJ C/rc. 7 O 237^. . WELL: ORATOR: ,^/ORTFOR : ■OPERATION: /AAJ5ST/C 4 / LOCATION: ENGINEER: R. Bsstsoa/ No.: 'DRILLING Arp 549P : Qzt> DATE: £. t~2£T//owaa/ REPORT No.: OD>E # 22 TIME: DEPTH: JP-6 -94 /5 24 -OO HAS 24/9 /m MUDDATA BIT DATA Tvne KCl- POZY/nsP No. 4 5 Time OR. qO 24-oq Size 8-5 85 Depth m 23 9o 24/8 Type ATT33 ATJ33 Density ooa 8-3 ?-3 Jets 3+/O 3+/O Viscosity

setfat 30 4/ Out (ml 23? O /*/ PV co 9 /o Metres 307 28 YP bdoott 2 to /3 Hours 72 6 Gels VlOOft 2 2/9 2 hi Metres/Hr 4-3 4-7 API Filtrate cos 7-8 8-2 WOB 42 42 Cake 32nd / / RPM 6o 60 Sand % Vol 77 7> Dev '4* - Solids •LVnl 5-7 57 T-B-G . 6- 5- 7t6 Oil/Watar «LVnl -/?4-3 nH Shin 95 95 PUMP 1 2 Rltrata Pf/Uf 0-//o5 ot/o-s Tvne 8-P-80 R-P-80 t ....orida rwM 20000 2oooo 1 iner 6' 6* Total Hard /ZO /oo Stroke 85 8-5 KCI % 4-0 4° Bbls/Stk 0-0705 OO 70S Rf/@°F 0/7*6? !7«. 72 Eff (%) 95 95 Sulphite mtfl 80 /oo SPM 90 Flowline Temp. ■°C 64 Bbls/Min 62 fial/Min 26/ Press /nsil /5oo SCR MATERIAL USA 3E KCi 20 CA</3T/C SOO A 2 OS f I PoiYpAc 3 C/rtC-Zl/ 3 BAOBAB 3 dAwes zs-^ 35 DAILY COST S /8/3-3Z CUMUL COST S 37392^1 FOtllPMFNT 1 Size Hours Shaker Btt/sgo z-a Shaker Bso/o/iq /4 Desander 2+/o* Z4 Desilter 8,5’ Z4 Cfuae S*/fico Rhls Made-24 Hrs Bbls Made-Cumul. SYSTFM VOIIIMFS ANNULUS DB1LLSIR1NG Size ins 9%'esz 8/ ort e^oH Size ins 4%J>P 4%#*/ 6'4.J>C Hole ID ins 892/ 9-5 85 Pipe ID ins 3-82.6 2 77 2 8/25 Pipe OD ins 45 45 6-25 Capacity bbVm 0-04.6/ 0024R 0-025? Ann. Vol bbl/m O-/B92 0/658 0-/058 Section Lenqth m 2/645 549 if8-6 Section Lenqth m 2993 /72t./ 798-6 Section Volume bbls /oo- ? /-3 5-o Section Vol bbls 56-4 3135 2/ Flow Type 7~ 7- 7" ' Vel. rtfmtn 32-8 | 37-4 58-6 Pressure Drop £§L 2/2. 25 85 l,,.. Vel 76-2 76- 6 80s Theoretical 1 an 56/7 StkR Row Tvoe L L L Carbide Laa stks Pressure Drop /3 /? Est. Averaqe I.D. - ins 503 bbls mins Jabls. bbls ^27. Total Annular Volume Surface Volume hbls. bbls Mud Volume in Hole Total Circulation Time 77? 450 SYSTEM HYDRAULICS SYSTEM PRESSURE DROPS Surface ps Drill Strinq PSt 322 Bit Jets psi / / O / Annulus psi /28 Hydrostatic Head 0 24/3 /** osi 383 6 Eauiv. Circulating Dens. PPd 9-5* Jet Velocity rtfsec /// Jet Impact Force lbs 4St BitHHP /6g S'-item HHP 228 .HP at Bit 73 HHP/sq. in 2-95 F.l.T. at Casinq Shoe PPd // o Total string Volume ■Tot^Ciroilatin^olume ACTIVITY BHA ' 8,/ A/5,6, s/ock S<4, Z^^S/4, s<?*6'4.dc- /?£•£/*, 6//v'-s*fr /OtAjWC: J>rfM 7*a 23 ?O /-*•>. Circ *22 B/iC&W frtor /’C’/tf P„// Ot ^ £//"3#5. 7^/- BoAj. */* A/ff />&/* /// ,// 7a ^4-/S’ A t. 77<r«/ /w<7 WELL: ORATOR: r /ORT ■FOR : OPERATION: MAJ//ST/C * / M/MfiEX B.BEET^o^ PPlLL/t/Q LOCATION: ENGINEER: RIG No.: A TP 5497. Q5> 5. TPETHOWA/J QD>E -# 22 DATE: REPORT No.: TIME: DEPTH: I - — MUD DATA BIT DATA MATERIAL IJSAC ;e Tvne A'r/- No 5 Time //oo 24-co Size 85 KC/ 25 Depth m 2465 2472 Type AT5.33 cAusr/c. soz>/i 2 Density DOT 9-3 93* Jets 3* /O 04 / / Viscosity setfat 39 4! Out(m) //J PotrPA r 6 PV co // // Metres QZ c/nc- /.V 2 YP Ib/IOOft 2 /3 /3 Hours 20 SPEPSEa/E 3 Gels ib/ioat 2 2//O 2//O Metres/Hr 4-1 API Filtrate ccs 7B 70 WOB 42 Cake 32nd / / RPM 6o Sand %Vtf 77- 7> Dev Snliris “LVN 57 5-7 T-R-A II Y COST s 184-Ztl OitANater «£ VrJ -/?4 3 -/94 3 I CI1MII! COST 3903487 nH qirin 9-o '9-5- PUMP 2 Filtrate Of/Mt O-z/^SS o-z/o-6 Tvne fi-P-Bo 8-P-Po FOIIIPMFNT <....oririe /95oo /95oo 1 iner 6* <£* Size Total Hard Xo 6o Stroke 8-5" 85 Shaker 880/&20 /6 KCI % 4--o 4-0 Bbls/Stk 00705 O-o7o5 Shaker 880/6/2.0 /6 Rf/@°F 0/7*72 0/7*70 Eff (%) 95 95 Desander 2^/0- /6 Sulphite mat 80 80 SPM 88 Desilter 85' /6 Flowline Temp. °C 66 Bbls/Min 52 CTuqe SV/ACO /6 fial/Min 26/ Press tnsit /Soo Rhls Made-24 Hrs /5o 1 SCR Bbls Made-Cumul. 4450 1 SYSTEM VOLUMES fl ANNtll IIS DR LL STRING Size ins 0^04 8Lo// Size ins 4 , 6bP 4‘/l 8*/ 6^00 Hole ID ins '8-?2i 85 85 Pipe ID ins 3 826 277 2-8/25 Pipe OD ins 45- 4-5 625 Capacity bbi/m O 04.66 0-0243 0-0253 Ann. Vol bbVm 0-/892 0-/658 0-/058 Section Lenqth m 22/9-5 549 / 97-/6 Section Lenqth m 2783 /976-/ /97-6 Section Volume bWs /O3-4 /• 3 5-o Section Vol bbls 56-4 3276 2o-9 Row Type T 7" 7~ ‘ n.

Vel. m/min 32-8 37-4 58-6 Pressure Drop psi 22/ 25 86 ....iVaI m/min 768 77-4 82-4 Theoretical 1 an 5745 siks Row Type Z L L. Carbide Lac stks Pressure Drop psi .11 11 Est. Averaqe I.D. ins Total Annular Volume Surface Volume hhls Total Strinn Volume //<? bbls Total Circulatinq Volume ?l£2 bbls. bbls 450 SYSTEM HYDRAULICS Surface P®. Drill Strinq psi 332 Bit Jets psi 1/0/ Annulus psi 13/ Hydrostatic Head PS 3922 Equiv. Circulatinq Dens. ppg 1-5* Jet Velocity rtfsec /// Jet Impact Force lbs 456 Bit HHP /68 c, 'stem HHP 228 | IHPatBit 73 HHP/sq. in 295 F.l.T. at Casinq Shoe PM I/O Mud Volume in Hole Total Circulation Time 5/5 /S<6 bbls. mins « .• 5/°^/ .slz, 6 £ zxr, •^*4. /% 6'£*£*- /975^ 6//^>5 54.9^ ///X .• 4/</'/ 7~q 2. 7*b Zoo/ n/0/1 7r c fv* 7? C /? '• 2472 s* / /ob/nt Co/) fro 7 /t /fr*fe r* WELL: MAJES77C # / LOCATION: / ' n ERATOR: M/MAEd ENGINEER: ._?ORTFOR : g. &EETSQ/J RIG No.: OPERATION: f>OH t*/ rest 7oo£.S ATE 549P. ?zZ> DATE: zF. 7775 7^0^^/7 REPORT No.: ODu- g/C # 22 TIME: DEPTH: _j2-6-94 17 24-00 H7/S MUDDATA RITDATA- 5 MATERIAL USA ;e Tvne K£7- 0o/r7n£g No Time O7-&> 7700 Size 85 KC7 25 Depth m 25o7 2 So 7 Type 47X33 CAt/sr/c £opa — Density DM 93 9-3 Jets 3-t/o Pot-dAAc 8 Viscosity setfat 42 ai Out (m) 2So7 cmc- cv 3> PV CD // // Metres 7/7 5AEA5ENE 3 YP iwiooft 2 74 /2 Hours 27 Aacba^j 2 Gels Ittf 100ft 2 2f/o 2/70 Metres/Hr 4-3 AAAdres 40 API Fltrate cos 6-8 7o WOB 42 Cake 32nd / / RPM to Sand %Voi 7> 77 Dev Solids •LVri «7 5-7 T-R-fi a- 2-_r DAILY COST $ Oil/Water •(.Vri -/?4-3 -/?4-5 CtJMUL- COST S 42593-64 nH Shin '95 9-5 PUMP 8-A-&O Fltrate Pf fluff O-/5/&6 ^ i/od Tvne 8-P-eo ■EQUIPMENT 1 >,. iinride /95o° 795™ I iner 6' 6” Size Honrs Total Hard to 6o Stroke 8-5' 85' Shaker 88*/8/2o // KCI % 4-0 4- 0 Bbls/Stk Oo7o5 00705 Shaker 8a*/8/2o // Rf/@°F 0-/8 *72 0/8*72 Elf (%) 95 95 Desander 2*70" // Sulphite mol to /oo SPM 88 Desilter 8*5 // Fowiine Temp. °C 67 Bbls/Min 6-2 Cluqe SldAoO // Gal/Min 267 Press /nsil 7SOO Rhls Made-9Z Hrs 750 SCR Bbls Made-Ci mul. 5700 SYSTEM VOLUMES ANNULUS DRILL STRING Size ins ?%€$£. &L 0/7 08 Size ins 4%. Of 4*6.HW 6^ be Hole ID ins &92! 85 e-s Pipe ID ins 3 -826 2 77 2-8/25 Pipe OD ins 45 45 6-25 Capacity bbVm O 0^6 0-0243 0-0253 Ann. Vol bbVm 0/872 0-7658 0-7058 Section Lenqth m 22543 54-9 /97-6 Section Lenqth m 2983 2o//-/ l?76 Section Volume bbts /O5 7-3 SO Section Vol bbls 56 4 333-4 2o-9 Fow Type 7" 7~ 7 i. Vel. nVmr 32-8 374 58-6 Pressure Drop psi 225 25 86 1 v.dt. Vel . mAnm 74 745 795 Theoretical I an 5830 stks Fow Tvoe 4. z. Z. Carbide Laq stks Pressure Drop CSi L2 78 Est. Averaqe I.D. ins zsor At Total Annular Volume 4// hhls Total Strinn Volume 1 Surface Volume SOO bbls Total Circulatinq Volume SYSTEM HYDRAULICS I SYSTEM PRESSURE DROPS Surface psi Drill Strinq psi 336 Bit Jets psi l/oi I Annulus psi /24 Hydrostatic Head * 2.507* psi 3378 I Equtv. Circulatinq Dens. ppg ‘i-s- 1 Jet Velocity nvsec // / Jet Impact Force bs 456 Bit HHP 768 1 °*'stemHHP 228 1 HHP at Bit 73 HHP/sq. in 2-95 F.l.T. atCasinqShoe ppq 77-0 77/ hhls Mud Volume in Hole 522 hhls /OZZ bbls Total Circulation Time /65' mins ACTIVITY 8HA ' /97-6/*, 6/t*OP- 54-9*. C+6 erf r^sr Too/s^ 12-rt 7m- 7^ 25o7m. 5,' C S „y/e. /W» At /o j ftd wp e*~ r-"tf - /io A ode . Ctf-c. 8.u - r^e-7 W t +A P/ocic7e, Po/d. /geAe uj / test 7oo/s. P/.tt.f<>‘‘Psr*/ t 24?3-2So7*i Un ah/e to m attain packer- - Po/J. T'-e-fed f/1C p'° r to fo/ to fiMsotl 7<Sj *> ^ Srci - C/je, 4.o^gor,de dor- rA'J WELL: ORATOR: ■ ■k_?ORTFOR : OPERATION: MATSSTfC ft ! .5. seg-rsort DR t/a. jpg LOCATION: ENGINEER: RIG No.: ATP 547 P. M £. ’TPFTHOMW/- OPTS 4 22 DATE: REPORT No.: TIME: DEPTH: Tvne xr/ - ROLTMcA Time /3-oo 24 oo Depth m 2532 2385 Density dm ?3 r 1 Viscosity $ec/at 4-

2. 42- PV co // // YP ib/iOOft 2 /4 Z4 Gels bfiooft 2 2//Z 2/// API Filtrate ccs 7-6 7-4 Cake 32nd / i Sand %voi 7~r Tr Solids % Vni 3 7 37 OilAWater t vh -^4-3 -/S4.-3 nH Strin '75 9-5 Filtrate wm 07/0-7 o/Ao-7 ttooo /fooo Total Hard 60 6o KCI % 3-8 3-6 Rf/0°F 0fgo72 0-/8e7o Sulphite mol 8° 720 Rowline Temp. °c 6? BITDATA 1 No 5RR Size 8-5 Type AT333 Jets 3 + ff Out (m) /P Metres 78 Hours /45 Metres/Hr 54 WOB 42 RPM 6o Dev T-B-G VRlC MATERIAL USAGE Kc/ 22 CRusr/c SOVA I OS f I PotrPAe 3 lz PUMP 1 2 Tvnfi 8-e-eo 8-p-b° 1 irter 6- 6’ Stroke 8-3 frS 1 Bbls/Stk 0 0705 00703 Eft (%) 95 95 SPM 88 Bbls/Min 6 2 Aal/Min 26/ Press trwft ffSO SCR DAILY COST S /2OO-63X CUMULCOST J—— &794-4A EQUIPMENT Size Shaker A&o/Aiie 17 Shaker 88o/p/zo f7 Desander 2+to' /7 Desilter 8+3* /7 Cluqe SWACO /7 Rhls Marie-94 Hrs /So Bbls Made-Cumul. 3250 ANNULUS DR LLSTR1NG Size ins 8'6 off 8*108 Size ins 4%-VP \4‘6ftw Hole ID ins 8-72! 8-5 83 Pipe ID ins 3-826 2-77 2-8f2S Pipe 0D >ns 4-3 45 6-25 Capacity bw/m 00466 O- 0243 0-0253 Ann. Vol bwm Of 892 0/658 07058 Section Lenqth m 2332 3 54-9 Section Length m 278-3 2o8?f / ?■7-6 Section Volume b«s /OS-7 /-3 50 Section Vol bds 564 346-4 20-9 Flow Type 7" 7~ T 1. Vel. nVmin 32-8 37-4 SB Pressure Drop os* 233 25 86 77-4- 8o-f 65 Theoretical 1 an 6 O O O stks Flow Type Z z. L Carbide Laa stks Pressure Drop os* /4 P3 2o Est. Average 1.0. ins 1 Total Annular Volume 4-23 bbls 1 Total Strinn Volume f/S bbls Mild Volume in Hfllfi 538 JlblS /O38 mins 5790 bbls Total Circulating Volume bbls Total Circulation Time SYSTEM PRESSURE DROPS fl Surface psi Drill Strinq psi 34-4 Bit Jets psi 752 Annulus psi /47 Hydrostatic Head PS« 4fOf Equiv. Circulating Dens. PP9- 9-6 Jet Velocity m/sec 9/ Jet Impact Force lbs 377 Bit HHP //5 ''••stem HHP /75 . HHP at Bit 65 HHP/sg. in 2-0/ F.l.T. at Casing Shoe pm // o L&jrfaceVolume — ACTIVITY &HA: (J*cAo*j*P - /?7-Ap 6f**'0P‘ 54 ?^■ /3f/> SOP£ : pop >- o<P TrsT P /P PR AAA -if '5 - . 7>,,// too A*, to 2 585s*. Pe bot/A Yo/csne o AA+s- aPPt A/o* o P f st * /osJef Ao por^i+Aso^ cPAesnfA- t* use A?s / A^ Poss■ i^Alf - /to P /cm /e cArf//<*J Ao^ef- ZuppS _^ 4-6~?4 A2 2 664 M WELL: M7J5S77C 4 1 LOCATION: AERATOR: /W/AI^X ENGINEER : PORT FOR : /?. 8££TSo^ RIG No.: OPERATION: !L-£./4C A~TP < QlD_ DATE: £ _ 77t£-THovJAP REPORT No. : OD * £ # 22■ TIME: DEPTH: MUD DATA Tvna kc/ -7 OtYMS# Time n-oo 24 -oo Depth m 2(>2A 2664 Density otxi 9-3+ 93* Viscosity secfat 40 43 PV CD 7 // YP WtOOft 2 /2 74 Gels IbdOOft 2 2/ztf 37/4 API Fttrate ccs 3 2. go Cake 32nd / I Sand % Vol 7> T> Solids XVni .5--7 5 7 Oil/Watar - /?4-3 - 794-3 nH Strin <95 9-° Filtrate WMt 0-//o-7 o-i/o-7 . ..oririft /95OO /9goo Total Hard 30 6o KCI % 3-8 s-e Rf/@°F 0-77*74 0/7*70 Sulphite mot 60 /OO Rowline Temp. °C 7/ BIT DATA No Size 3 5 Type Arms Jets 3*77 Out(m) Metres 757 Hours 38-5 Metres/Hr 4! WOB 42 RPM 60 Dev T-R-G PUMP 1 2 Tvne 8-f-eo 3-8-80 1 iner 4* Stroke 85' 85' Bbls/Stk 0-0705 00705 Eff (%} <75 95 SPM 88 Bbls/Min 6-2 Gal/Min 261 Press /nsit /2oo SCR MATERIAL USAGE KCi 40 C8U5TIC SODA 2. OS 1 / POLfPAC 5 Z q Sf£&$£fiJ£ 6 I DA IL Y COST S W CUMUL COST S 14^334-5311 FOIIIPMFMT Size Honrs Shaker 880 /fftL? 24 Shaker B8q/0!2O 24 Desander 2+SO * 24 Desilter 8^' 24 Cfuqe S\a/ACO 24 Rhls Marie-24 Hrs Zoo Bbls Made-Cumul. 53^0 VOLUMES ANNULUS DR LLSTRING Size ins 8%. OH T&oH Size ins 4-'4.dp 4*6/W 6%.J)c Hole ID ins 8927 65 85 Pipe ID ins 3-826 2-77 2- 8125 Pipe OD ins 45 45 6 25 Capacity bbi/m O0466 0-0243 0-0253 Ann. Vol bbl/m 0-1892 otise o/o58 Section Lenqth m 24!! -5 54-9 197-6 Section Lenqth m 2983 2168! 197-6 Section Volume bws 772-4 7-3 5-0 Section Vol bus 56-4. 359-5 . 205 Row Type 7“ T 7" * 'n.

Vel. m/min 32-8 37-4 58 -6 Pressure Drop psi 247 25 86 79 -5 #o 85 Thenretinal 1 an 6798 stks Row Type 4 L L. Carbide Laq stks Pressure Drop o$i 74 H7 20 Est. Averaqe I.D. ins Total Annular Volume Surface Volume 437 hhts 45o I bbls Total Strinn V olume Total Circulating Volume -^4 /OO 6 hbla bbls Mtiri Volume in Hole Total Circulation Time 55£_ 762 bbls mins SYSTEM HYDRAULICS araiCM rnennunr urtura Surface osi 1 Drill Strinq psi 352 1 Bit Jets psi 752 1 Annulus psi !5 / 1 Hydrostatic Head o 2664 psi 4227 1 Equiv. Circulating Dens. PPI 9 6 1 Jet Velocity nVsec 97 1 Jet Impact Force lbs 377 1 Bit HHP 775 1 ^vstem HHP 783 HHP at Bit 63 HHP/sq. in 2-o! F.l.T. at Casinq Shoe —£& U-o ,,.,APTnm QHA •' ■UsicAanjeJ — 797-6**, 6/7hfD£- 54'7/n /4tA J-Wg: J? r , // -f o 2. 664**. ftdc7ec7 fresn/* 7~o /ri Wt+h So/vg A 9 <^o-7^c/, Cawy snv4 /s>c*e».s/4j pj/ts-fJ-e. Joss — Tn? o 7ec/ i^/76 yt?oZjz>»«v. WELL: r '°ERATOR: .PORT FOR : OPERATION: MfiTBST/C # / 7M/A1 PEX Q. BE£T£O^ Z. O &6/ LOCATION: ENGINEER: RIG No.: ATP 541 P <?£32 £.T/>£TH(M^ OI> + e= *22 DATE: REPORT No.: TIME: DEPTH: XS^-P* 22. 24.-oo HAS 2 667/* MUD DATA Tvne Kr/- PoLY/neP Time 03-oo Depth m 2U7 Density dm 93* Viscosity $ec/m 43 PV CD /2 YP ib/ioott 2 /4 Gels wiooit 2 3 //S' API Filtrate as 8-5 Cake 32nd 2 Sand %vot Tr Solids «L Vnl 5-7 Oil/WafAf •£ Vnl - /94-3 nH stfin 95 • Filtrate Pf/Uf o-/5/o-e 1 . ..(Oridfi ■mnA /<?ooo Total Hard BO KCI % 3-8 Rf/@°F O-/9 ol7 Sulphite mot /oo Flowline Temp. °c 72 RIT DATA No 5RR Size Q'B" Type AT533 Jets 3iH Out (ml 2667 Metres /6o Hours 39 Metres/Hr 4/ WOB 42 RPM 6o Dev 2* J££ 6-5- '4z MATERIAL USA 3E aHt/STic ^oT>A / BAcBA/7 TT 2 £APT7^S ZSh; • pSSCo ~ * / * Iac! stock //70/o PUMP 1 2 Tvne 8-9" Bo ■ ■B-P-8° 1 iner 6' 6' Stroke #5' 85' Bbls/Stk 0-0705 0-0705 Ett (%) 95 95 SPM Be Bbls/Min &-Z Gal/Min 26/ Press tnsfi /zoo SCR EQUIPMENT Si7fi Shaker Bgo/Bilo 3 Shaker Bsa/Brzo 3 Desander 2+/O' 3 Desilter 8*5' 3 Cluae Sv/Aco 2 \L7444-*3 DAILY COST S CUMULCQST A Rhls Made-94 Hrs Bbls Made-Cumul. ^450 SYSTEM VOLUMES ANNULUS 1 DRI L STRING Size in$ 8%. OH 8'ioH Size ins 4*6 DP 4 t 6HH 277 2-8/25 Hole ID m 8-92/ 85 8-5 Pipe ID ins 3-826 Pipe OD ins 45 45 625 Capacity bw/m 0-0466 0 0243 £>-0253 Ann. Vol bblftn 0-/892 o- /658 o- /O58 Section Lenath m 24/45 54-9 /976 Section Lenqth m 298-3 2/7/- / /?z<? Section Volume t>ws /f2-S /-3 5-o Section Vol bt>ts 56-4 360 20-7 Flow Type T T T ‘^n.Vel. m/min 32-8 3Z.4 58-6 Pressure Drop psi 24/ 25 86 795 80 85 Theoretical 1 an 6/98 <;tks Flow Type z. L z. Carbide Lao stks Pressure Orop osi s± 'Ct 20 Est. Averaqe I.D. ins 437. 4£O SYSTEM HYDRAULICS Surface psi Drill Strinq psi 352 Bit Jets psi 752 Annulus psi /5/ Hydrostatic Head «• 2667 psi 4Z32- Equiv. Circulating Dens. pm 9-6 Jet Velocity nVsec If Jet Impact Force tbs 377 BitHHP //5 System HHP /83 rIHP at Bit 63 HHP/sq. in 2o/ F.l.T. at Casing Shoe dm I/O Total Annular Volume Surface Volume hhls bbls Total Rtrinn Volume Tota^irculatirK^olurne /'? /oo6 bbls Mud Volume in Hole Total Circulation Time 556 /6Z bbls mins ACTIVIT Y QtiA : ~ /97-t*, 6HvW- 54'9* /StA Jt/t/g - j>/// 1o 2667/* - /TltrAe /Pjtct ?/tf. 5tfc ~ (A,* A •te'-f. /**"< 7o pwf4 ft t fsnf 2r»H ft^- f?u* toQS , £0^4 /osiez ivXJe / O ^ /Z U ~ S*SS 7"Z«*i / XX/ /X**, WELL: AERATOR: . .^ORTFOR : OPERATION: LOCATION: ENGINEER: RIG No.: majzst/c * / M/r* P£* B8££73o^ £iKcus.A75 orJ clsa^-o^t- TfiiP. Are £ . 7‘££THoui/Aa/ 0 72 *22 DATE: REPORT No.: TIME: DEPTH: 2t 24-00 3AS ZU7 M MUD DATA TvnA KCI-A oirmet^ Time 23 00 Depth m 2667 Density DOG 7-4 Viscosity $ec/at 4! PV CD 12 YP Ib/IOOft 2 12 Gels Ib/tOOft 2 3/H API Hitrate ccs 05 Cake 32nd 2 Sand %Vol Tr Solids <¥.Vd 66 Oil/Water •LVnl -/fid nH Sirin 75 Fltrate Pf/Mf

O/Zo-S 1uoridfi mnri /55oo Total Hard mnri 60 KCI % 3-6 Rf/@°F <218^78 Sulphite mol Rowline Temp. °C 6! RITDATA MATERIAL USAGE No ttt. Size 8’5 Tvoe AT733 Jets oP^ /V/Z Out (m) Metres Hours — Metres/Hr WOB RPM Dev M DAILY COST $ . ICUMULCOST S 47404/3 PUMP 2 Tvne 8-P-80 B-P-80 FfHIIPMFNT 1 iner 6' 4* 1 s™ Hours 8-5 85'’ Shaker 6&>l8iio / Bbls/Stk o-o7o£ Oo7o5 Shaker Qfo/6!2.O / EH (%) 75 75 Desander 2+/O' / SPM 58 Desilter — Bbls/Min 52 Cluqe SWACO nitcep . p**"' Aal/Min 26/ Press fnsil 500 Rhls Made.24 Hrs r"<- SCR Bbls Made-Cumul. SYSTFM VOI UMFS ANNULUS DR! LLSTR1NG Size ins 7%/CSC. &LoH Size ins 4^-PP 46 H* 6'4£>c Hole ID ins 8-721 8-5 8-5 Pipe ID ins 3-826 2-77 2 8/25 Pipe OD ins 4-5 4 5 6-25 Capacity bbVm 0 0466 0 0243 0-0253 Ann. Vol bbl/m 0-/872 O//58 0/058 Section Lenath m 24/8-7 54-7 /73Z Section Lenath m 278-3 2/755 /73-2 Section Volume bbls HZ7 /-3 45 Section Vol bbls 56-4 360-7 20-4 Row Type n. Vel. m/min 22-5 374 Pressure Drop osi u.iL Vfil m/min Theoretical 1 an siks How Type Carbide Laq stks Pressure Drop 09 Est. Average I.D. ins <437 hhls 350 bbls bbls Mtid Volume in Hole Total Circulation Time Total Annular Volume Surface Volume Total Strinn Volume bbls H Total Circulating Volume joins SYSTEM HYDRAULICS I Surface .PS 1 Drill String ps< — I Bit Jets psi I Annulus psi I Hydrostatic Head psi Equiv. Circulating Dens. PPd I Jet Velocity nV sec - 1 Jet Impact Force lbs - I Bit HHP c "Stem HHP — 1 iHPatBit I HHP/sq. in I F.l.T. at Casing Shoe Pffl, ino PRESSURE DROPS ACTIVITY 8 ft A - At, 6,*54, 2/+6’4.l>c-/732'*, 4**- 54?m 7 Sidewall cores. /esses O-746///r. fi. i t~/ w r/A 6t~/~. fi/o /nod frot/eeu in ■flrsd Ao<*r- C/rcdd'C* - VtScojfA* 7 ders/ty i a cretts/Aj WELL: MTfW £ / LOCATION: ■AERATOR: Ml MP3* ENGINEER: JPORTFOR : &. Aeetso^ RIG No.: OPERATION: fdEfAAe T<s> p yA . ATA S4.W <?u> DATE: //-<<- 74- £. TP£THOlA/dd REPORT No.: 22 O 1? * F 4 77 TIME: 24 4 OMtS DEPTH: 2.847m MUD DATA RIT DATA MATERIAL USAGE Tvne Ka-Po£. i No Time 07- /5 Size /4 Depth m 2£C? Type CAU477C. 3OVA / Density DOG 9-4 8-7 Jets 3 Viscosity SWfat 4Z Out (m) PV cs a Metres YP WIOOft 2 /2 Hours Gels Ib/IOOft 2 3hz Metres/Hr API Filtrate as 93 WOB Cake 32nd 2 RPM Sand %Vol 7> Dev 1 Solids KXIri 6^ T-R-C II DAILY COST $ 3/934 II 1 Oil/Water -/?34 H CHMIII COST S 47724-/fl 1 nH Qtrin 93 tS PUMP 1 2 * '• RItrate PfAW Q'&/o% - /oi Tvne 8-p-eo Q-P-&? FOtllPMFNT > .nloride /8ooo dlOQO 1 iner 8" 6- Size Honrs Total Hard So /40 Stroke &5" es" Shaker 8go/Sn o KCI % 36 65 Bbls/Stk ooyos 00705 Shaker 88o1pi2o Rf/@°F oi8*7t> o/c? e72 Eff (%) 93 93 Desander 2*70 Sulphite mat SPM Desilter 8*3 Flowline Temp. °C 6/ Bbls/Min Cfuqe fial/Min Press (nsil Rhk Made-74 Hrs — SCR Bbls Made-Cumul. 5430 SYSTEM VOLUMES ANNIII IIS DRI 1 STRING Size ins Size ins Hole ID ins Pipe ID ins Pipe OD ins Capacity bbl/m Ann. Vol bbl/m Section Lenqth m Section Lenqth m Section Volume bWs Section Vol bbls Flow Type 'n. Vel. m/min Pressure Drop 09 L^riLVel m/min Theoretical I an atka Row Type Carbide Laq stks Pressure Drop psi Est. Averaqe I.D. ins Total Annular Volume hhls Total Strinn Volume hhls Mi id Volt ime in Hole hhls | Surface Volume bbls Total Circulatinq Volume bbls Total Circulation Time mins II SYSTEM HYDRAULICS fiYSTFM PRFRSIIRF tlRDPS Surface psi Drill Strinq psi Bit Jets psi Annulus psi Hydrostatic Head psi Equiv. Circulatinq Dens. ppq Jet Velocity m/sec Jet Impact Force lbs Bit HHP ''-'stem HHP . HHP at Bit HHP/sq. in F.l.T. at Casinq Shoe —EES. ACTIVITY 8 HA' - /7ZX Sircuio'ie dtf* - si vat ■e>95 boPfe*** dehj<Jndd (9'4*, 43 vid) wt+A Sftr.se'ie /€»*-*/'*. Ped. di 7*0-/-7*x>/Cr.

ffa+ed 2366/ K& br/s>e 7o 63% f2 ' 7 PPJ>' Ft// to wdl fawe cusA/<"t- Vf* Mf'** J"** J<"- ?"'*'*”'** /*rd*/3/. o/i Success /v Z PoH Pr*f^<- 7o f * A .

APPENDIX 4 WATER ANALYSIS SIMMONDS & BRISTOW PTY. LTD. A.C.N. 010 252 418 DJG:LB WATER & ENVIRONMENTAL ANALYSTS & CONSULTANTS Ref. No. 24654 28 April 1994 The Manager, M.I.M. Petroleum Exploration Pty Ltd, PO Box 138, Lutwyche, Qld 4030 Attention; Mr C M Camping Dear Sir, ANALYSIS OF WATER SAMPLES ORDER NO. 1357 Three (3) samples were received for testing on 12 and 13 April 1994. The results of analysis are presented in the Table attached. COMMENT All three samples submitted for chemical analysis are high in total dissolved salts, and as such are considered unsuitable for drinking water purposes. The principle salt present in all samples is sodium chloride, sodium bicarbonate and sodium sulphate. Please advise if you have any queries. Yours faithfully, SIMMONDS & BRISTOW PTY. LTD. iw — Dave Gleeson Special Projects Analyst Encl: MIHPETRO Simmonds & Bristow Pty. Ltd. 30 Shottery Street, Yeronga. Queensland. 4104. Australia. “For when you demand — Initiative, Accuracy & Reliability" Phone (07) 848 7699 Fax (07) 892 3345 MEM PETROLEUM EXPLORATION. SIMMONDS & BRISTOW PTY. LTD. A.C.N. 010 252 418 WATER & ENVIRONMENTAL ANALYSTS & CONSULTANTS REE* NO: 24654 WATER ANALYSIS REPORT RECT NO SAMPLE DESCRIPTION Cnr.T.MTiTED RECEIVED TESTED A:87829 BOULDER BORE. 12/04/94 12/04/94 13-14/4 B: 87830 BOONDOOK BORE. 12/04/94 13/04/94 13-14/4 C:87831 TELEPHONE BORE. 12/04/94 13/04/94 13-14/4 S&B METHOD PHYSICAL ANALYSIS SAMPLE A SAMPLE B SAMPLE C WP100. Total Dissolved Salt (Calc'd) mq/L 2016. 5162. 2002. WP040. Conductivity @ 20 C uS/on 2600. 6440. 3010. WP090. pH Value 9.4 10.0 8.2 S&B METHOD CHEMICAL ANALYSIS SAMPLE A SAMPLE B SAMPLE C MAJOR et-emtotts WC025.Ill Calcium as Ca mg/L 8. 4. 41. WC055.111 Magnesium as Mg mg/L 7. 3. 16. WC090.111 Sodium as Na mg/L 735. 1930. 730. WC075.111 Potassium as K mg/L 6. 16. 6. WC205. Hydroxide as OH mg/L <1. 3. <1. WC205. Carbonate as C03 mg/L 65. 654. 4. WC205. Bicarbonate as HCO3 mg/L 285. 532. 245. WC280.4 Sulphate as SO4 mg/L 90. 540. 210. WC220.4 Chloride as Cl mg/L 820. 1480. 750. CARBONATE EQUILIBRIUM WC205. Hydroxide Alkalinity as CaC03 mg/L 2. 8. <1. WC205. Carbonate Alkalinity as CaC03 mg/L 109. 1091. 6. WC205. Bicarbonate Alk'y as CaCO3 mg/L 233. 436. 201. WC205. Total Alkalinity as CaCO3 mg/L 344. 1535. 207. WC215. Free Carbon Dioxide as CO2 mg/L <1. <1. 2. WP010. pHs at CaCO3 Sat'n @ 25 deg mg/L 8.23 8.01 7.74 WC215. Free CO2 at Sat'n as CO2 mg/L 3. 18. 5. WC215. Aggr. Carbon Dioxide as CO2 mg/L <1. <1. <1. WC025. Calcium Hardness as CaCO3 mg/L 20. 10. 102. WC055. Magnesium Hardness as CaCO3 mg/L 29. 12. 66. WC247. Total Hardness as CaC03 mg/L 49. 22. 168. SUM(ANICNS - SUM(CATIONS) Actual mEq/L -1.23 -1.13 -5.62 Acceptable +/- mEq/L 0.60 1.40 0.57 WP130. Sodium Adsorption Ratio 45.66 176.90 24.45 WP105. Residual Alkali mEq/L 5.86 30.09 0.77 WP055. Irrigation Classification C3-S4 C5-S4 C4-S4 Sheet 1 of 1 Sanpled By: CLIENT The results obtained for 'IRRIGATION CLASSIFICATION' are interpretative results and therefore not subject to NATA Certification This Laboratory is registered by the National Association of Testing Authorities. Australia. The testfs) reported herein have been performed in accordance with its terms of registration. This document shall not be reproduced except in fulL Phone (07) 848 7699 Fax (07) 892 3345 Simmonds & Bristow Pty. Ltd. 30 Shottery Street, Yeronga. Queensland. 4104. Australia. “For when you demand — Initiative, Accuracy & Reliability”

APPENDIX 5 SAMPLE RECORD HALLIBURTON ENERGY SERVICES, SDL DIV MIMPEX MAJESTIC-1 SAMPLE TRANSMITTAL TO : QMD FROM : MIMPEX 17-JUNE-1994 TIG 22 ODE, SDL UNIT 80 WASHED AND DRIED CUTTINGS SAMPLES BOX BOX CUTTINGS NO INTERVAL INTERVAL 1 305m - 500m 10m 2 500m - 700m 3 700m - 900m 4 900m -HOQm 5 1100m-1300m 6 1300m-1470m 10m to 1470m, 3m to TD 7 1470m-1530m 3m 8 1530m-1590m 9 1590m-1650m 10 1650m-1710m 11 1710m-1770m 12 1770m-1830m 13 1830m-1890m 14 1890m-1950m 15 1950m-2010m 16 2010m-2070m 17 2070m-2130m 18 2130m-2190m 19 2190m-2250m 20 2250m-2310m 21 2310m-2370m 22 2370m-2430m 23 2430m-2490m 24 2490m-2550m 25 2550m-2610m 26 2610m-2667m TOTAL DEPTH

APPENDIX 6 DRILL STEM TEST DATA Telephone (076) 222 655 AUSTRALIAN D.S.T. CO. PTY. LTD (076) 221 150 FAX COMPANY NAME MIM Petroleum WELL NAME Majestic #1 LOCATION ATP549P TICKET# 2394 CONVENTIONAL STRADDLE BYPASS COMPANY NAME : WELL NAME : LOCATION: TESTED INTERVAL: MEM Petroleum Majestic #1 ATP549P 2493.11 to 2507 m (13.89 m) TICKET # 2394 D.S.T.# One FORMATION Toolachee DATE 94/06/12 SEMI-LOG EXTRAPOLATION RECORDER # Permeability MD Draw Down FIRST SHUT-IN SECOND SHUT-IN THIRD SHUT-IN Skin Factor kPa SLOPE kPa SLOPE kPa SLOPE Damage Ratio kPa?/10?/ Log Cycle kPaf/10^/Log Cycle kPa z /10° / Log Cycle TEST PERIOD MINUTES: PRE-FLOW : 02 FIRST SHUT-IN SECONFLOW: SECOND SHUT-IN THIRDFLOW : THIRD SHUT-IN RECOVERY DURING FLOW PERIODS FLUID RECOVERY TOTAL m m of Nil m of m of mof GA r ’iCOVERY i TIM^ kPa d?/DAY RECORDER NUMBER K339 17980 080-148 13785 080-298 CLOCK HOUR - EMP 24 Hi. 24 Hr. EMP 24 Hr. EMP DEPTH METRES 2479.50 2486.00 2489.29 2497.30 2500.70 PRESSURE PORT FLUID INSIDE | INSIDE | OUTSIDE | OUTSIDE | OUTSIDE INITIAL HYDROSTATIC (A) 3928.4 3923.7 3942.2 3947.6 START FIRST FLOW (B) 8.1 166.7 201.6 222.6 232.9 END FIRST FLOW (Bl) 538.6 208.3 217.1 252.9 2445 FIRST SHUT-IN (C) START SECONDFLOW (D) END SECONDFLOW (E) SECT D SHUT-IN (F) FIN/. HYDROSTATIC (G) 3927.1 3932.2 3940.8 39425 START THIRD FLOW (H) END THIRD FLOW (I) THIRD SHUTIN (J) XJWNHOLE PRESSURE DATA (PSIG) FIRST FLOW : Lost packer seat approximately 2 minutes into preflow. SECONDFLOW: ORIGINAL COMPONENT IN POOR CONDITION (^^^^^^RATCSandGENERALD^^ COMPANY NAME : WELL NAME: LOCATION : TESTED INTERVAL : MIM Petroleum Majestic # 1 ATP549P 2493.11 to 2507 m (13.89 m) TICKET# 2394 D.S.T.# One FORMATION Toolachee DATE 94/06/12 TIME ORIFICE SIZE SURFACE TEMP PRESSURES F PSI RATEMCF/DAY LIQUID REMARKS ADDITIONAL WELL and TEST INFORMATION: Time started in Time on bottom Time tool opened Time tool pulled Time out of hole Tool weight Weight set on packer Initial String Weight Weight pulled Unseated string weight 17:15 Hours 21:20 Hours 21:42 Hours - Hours 03:00 Hours 4000 lbs 40 000 lbs 133 000 lbs 20000 lbs 145 000 lbs Mud Type Mud Weight Mud Viscosity Water Loss FilterCake Mud Drop Tool Skid Bottom Choke Hole Size Reverse Circulated BH. TEMP FILL N/A ELEVATIONS: 1114 ft/lb. K.B. 165.00 m 44 cp Ground 161.00 m 6.5 Total Depth 2507.00 m 1.59 mm PEPE ABOVE TOOLS — m Drill Collar I.D. — mm Nil m Drill Pipe I.D. — mm 19.05 mm Drill Collar 164.71 m 215.9 mm Drill Pipe 2262.77 m No mm HWD. Pipe 54.86 m Packer Size 190.5 mm 102.0 C No. of Packers Two — m Tester Vem Sale Representative B. Beetsen Contractor OD&E Rig Number 22 Hole Condition SAMPLES TAKEN: Bottom Hole sampler Fluid Gas Sent to "EST TOOL - CONVENTIONAL r COMPMVi NAME: ' WELL NAME: l LOCATION: . TESTED INTERVAL; MIM Petroleum Majestic # 1 ATP549P 2493.11 to 2507 m (13.89 m) TICKET # 2394 > D.S.T.# One FORMATION Toolachee DATE 94/06/12 TOTAL TOOL TO BOTTOM OF TOP PACKER 14.57 TOOL IN INTERVAL 13.89 BOTTOM PACKER AND ANCHOR TOTAL TOOL 28.46 DRILL COLLAR IN INTERVAL D.C. ANCHOR STANDS SINGLES D.P. ANCHOR STANDS SINGLES TOTAL ASSEMBLY 28.46 D.C. ABOVE TOOLS STANDS SINGLES 164.71 H.W.D.P STANDS SINGLES 54.86 D.P. ABOVE TOOLS STANDS SINGLES 2262.77 TC" \L DRILL COLLARS, DRILL PIPE & TOOLS 2510.80 TC lL DEPTH 2507.00 TOTAL STICK-UP ABOVE ICB. 3.80 PIPE TALLY

DRILL COLLAR JOINT LENGTH DRILL PIPE JOINT LENGTH 1 1 1 1 2 2 2 2 3 3 3 3 4 4 4 4 5 5 5 5 6 6 6 6 7 7 7 7 8 8 8 8 9 9 9 9 10 10 10 10 Total 1 Total 2 Total 3 Total 4 1 1 1 1 2 2 2 3 3 3 3 4 4 4 4 5 5 5 5 6 6 6 6 7 7 7 7 8 8 8 8 9 9 9 9 10 10 10 10 Total 5 Total 6 Total 7 Total 8 1 1 1 DC 1 2 2 2 DP 2 3 3 3 3 4 4 4 4 5 5 5 5 6 6 6 6 7 7 7 7 8 8 8 8 9 9 9 9 10 10 10 10 11 Tu . 9 Total 10 Total 11 TOTAL PO SUB CO SUB CO SUB Fluid Rec.K339 n J SHUT-IN TOOL ¥f SAMPLER M SAMPLER J HMV Q REC# ft REC# ! JARS ; REC #17980 _ REC #080-148 SAFETY JOINT PACKER PACKER Z DEPTH z493.ll STUBB REC.# ANCHOR C.O. SUB DRILL COLLAR C.O. SUB T.COLLAR DEPTH PACKER PACKER PERFS REC #13785 REC #080-298 C.O. SUB DRILL PIPE C.O. SUB ANCHOR .30 .30 .30 1.72 1.98 1.72 128 152 1.83 .67 2.03 1.92 .91 3.04 1.83 1.83 5.79 BULL NOSE .49 T.D. 2507.00 m M.I.M. PETROLEUM EXPLORATION PTY. LTD. DRILL STEM TEST DATA WELL: MAJESTIC 1 DSTNo.:2 DATE: 1W94 FORMATION: TOOLACHEE INTERVAL: 2520-2540mKB TOTAL DEPTH: 2667mKB TEST TYPE: Inflate Straddle SUCCESSFUL: NO HOLE SIZE: 8>A" TESTING CO.: Aust. DST Co. REPRESENTATIVE: K. RIG: OD&E 22 FLUID PROPERTIES SAMPLE INFORMATION SOURCE RESISTIVITY NO. SAMPLES TAKEN: OIL gas water MUD @ °F GAS SPEC. GRAVITY: WATER CUSHION ® °F OIL GRAVITY (°API): TOP SAMPLE @ °F MUD INFORMATION MIDDLE SAMPLE @ °F MUD: BOTTOM SAMPLE @ °F WT (ppg): 9.4 VIS (sec): 42 AUX. EQUIP. RUN: N/A PPM Cl: 18,000 PPM Ca: 80 PACKER SIZE: WT. SET ON PACKERS: TOP PACKER SET AT: 2493mKB BOTTOM PACKER SET AT: CALC. HYD. PRESS.: CALC. CUSHION HYD. PRESS.: 650 psi PUMP OUT SUB DEPTH: BOTTOM HOLE CHOKE: TIME STARTED IN HOLE: 8:00 TOOL OPEN: 13:03 PRESSURES (PSIA) BOTTOM TOP HYDROSTATIC GAUGE TYPE: GAUGE NO.: GAUGE DEPTH (Measured): GAUGE DEPTH (Vertical): INITIAL HYDROSTATIC: 1st INITIAL FLOW: 1st FINAL FLOW: 1st SHUT-IN: 2nd INITIAL FLOW: 2nd FINAL FLOW: 2nd SHUT-IN: FINAL HYDROSTATIC: FIRST BLOW DESCRIPTION: Weak blow for lmin. SECOND BLOW DESCRIPTION: FLOW DATA FINAL FLOW: ORIFICE PLATE FLOWING TIME (in.)(min.) PRESSURE MANIFOLD CHOKE (in.) 1ST FLOW FIN. FLOW-BEG FIN. FLOW-MID FIN. FLOW-END | RECOVERY: SAMPLES SENT TO: SAMPLE BOTTLE NO.S: REMARKS: Weak blow for lmin. after tool open. Fluid bypassing packer. No seat. Circulate for lOmin. Attempt to reseat packers. No seat. Circulate, attempt to reseat packers, no seat. POOH. Top packer burst. Bottom packer split. TEST SUPERVISOR: C.NELL

APPENDIX 7 LITHOLOGICAL DESCRIPTIONS LITHOLOGICAL DESCRIPTIONS Ditch cutting samples were collected from 305-1470 m at 10 m intervals and at 3 m intervals from 1470 m to TD (2667 m, drillers’ depth). Intervals have been depth adjusted to match wireline logs. WINTON FORMATION (Early Cretaceous) From 6-713 m Thickness: 707 m 305-541 m SILTSTONE WITH INTERBEDDED CLAYSTONE, MINOR SAND STONE AND THIN COAL Siltstone: light to medium grey and green grey, medium brown in parts, argillaceous, grades to claystone, arenaceous in part, slightly calcareous, trace to locally abundant carbonaceous flecks and laminae, common to rare disseminated very fine to medium (Fe stained) quartz grains, locally common coal fragments, rare mica, rare pyrite, blocky, soft to firm. Claystone: light to medium grey and green grey, silty, trace to locally common, carbonaceous flecks and laminae, locally common buff nodular siderite, rare mica, blocky to amorphous, soft to firm. Sandstone: light grey to light green, very fine to silty, predominantly very fine, common white argillaceous matrix, (washing out), weak to moderate calcareous cement, common lithics, common ?glauconite, trace mica, firm to loose, very poor visual porosity, no fluorescence. Coal: dark grey to black, dull, minor subvitreous, silty, grades to carbonaceous siltstone, brittle, blocky, firm to moderately hard. 541-713 m SILTSTONE WITH INTERBEDDED CLAYSTONE, MINOR SAND STONE AND THIN COAL Siltstone: light to medium grey and green grey, medium brown in parts, argillaceous, grades to claystone, arenaceous in part, slightly calcareous, trace to locally abundant carbonaceous flecks and laminae, common to rare disseminated very fine to medium (Fe stained) quartz grains, locally common coal fragments, rare mica, rare pyrite, blocky, soft to firm. Claystone: light to medium grey and green grey, silty, trace to locally common, carbonaceous flecks and laminae, locally common buff nodular siderite, rare mica, blocky to amorphous, soft to firm. Sandstone: light grey to light green, very fine to silty, predominantly very fine, common white argillaceous matrix, (washing out), weak to moderate calcareous cement, common lithics, trace mica, firm to loose, very poor visual porosity, no fluorescence. Coal: dark grey to black, dull, minor subvitreous, silty, grades to carbonaceous siltstone, brittle, blocky, firm to moderately hard. MACKUNDA FORMATION (Early Cretaceous) From 713-869 m Thickness: 156 m 713-869 m INTERBEDDED SANDSTONE AND SILTSTONE Sandstone: light grey to light green grey, clear to translucent, very fine to medium, predominantly fine, well sorted, subangular to subrounded, common white argillaceous matrix, weak to moderate calcareous cement, abundant to common lithics, common altered feldspar, common carbonaceous and coal fragments, friable to loose, very poor to poor inferred porosity, no fluorescence. Siltstone: light to medium grey and light to medium brown, becoming predominantly medium grey with depth, argillaceous, grades to slightly swelling claystone in parts, trace to common arenaceous laminae, common carbonaceous flecks and laminae, blocky, soft to firm ALLARU FORMATION (Early Cretaceous) From 869-1085 m Thickness: 216 m 869-1009 m SILTSTONE Siltstone: light to medium grey, becoming predominantly medium grey with depth, argillaceous, slightly micromicaceous, common carbonaceous specks, decreasing with depth, common crystalline (hexagonal prismatic) calcareous fragments, rare nacreous shell fragments, rare pyrite, subblocky, soft to firm. 1009-1085 m SILTSTONE Siltstone: light to medium grey, becoming predominantly medium grey with depth, argillaceous, slightly micromicaceous, common carbonaceous specks,

decreasing with depth, common crystalline (hexagonal prismatic) calcareous fragments, rare; nacreous shell fragments, rare pyrite, subblocky, soft to firm. TOOLEBUC FORMATION (Early Cretaceous) From 1085-1118 m Thickness: 33 m 1085-1118 m SILTSTONE Siltstone: medium grey, argillaceous, with common medium brown, non swelling, minor to common carbonaceous flecks, common calcareous fragments, blocky, soft to firm. WALLUMBILLA FORMATION (Early Cretaceous) From 1118-1451 m Thickness: 333 m 1118-1258 m SILTSTONE Siltstone: medium grey, argillaceous, with locally common light grey to light green arenaceous/glauconitic laminae and light to medium brown argillaceous/carbonaceous laminae, common calcareous fragments, rare pyrite, locally common sideritic laminae, blocky, firm to soft. 1258-1451 m SILTSTONE Siltstone: medium grey, argillaceous, with locally common light grey to light green arenaceous/glauconitic laminae and light to medium brown argillaceous/carbonaceous laminae, common calcareous fragments, rare to trace pyrite, rare microfossil fragments, locally common sideritic laminae, blocky to subfissile, firm to soft. CADNA-OWIE FORMATION (Early Cretaceous) From 1451-1549 m Thickness: 98 m 1451-1474 m SANDSTONE Sandstone: off white to light grey, clear to translucent, very fine to coarse, poorly sorted, subangular to rounded, abundant white argillaceous matrix, moderate to strong calcareous cement, common altered feldspar, common grey lithics, trace light brown oil stained quartz grains and calcite cemented grain aggregates, firm to hard, very poor visual porosity, no fluorescence, no cut. 1474-1549 m SANDSTONES WITH INTERBEDDED AND INTERLAMINATED SILT STONES Sandstone: off white to light grey, clear to translucent, very fine to medium, becoming very fine to silty (grading to arenaceous siltstone) with depth, moderately to well sorted, subangular to rounded, common white argillaceous matrix, moderate to strong calcareous cement, common altered feldspar, common grey lithics, firm to moderately hard, very poor to poor visual porosity, no fluorescence. Siltstone: interlaminated (?varved) light grey arenaceous (grades to and interlaminated with sandstone as above), and medium grey to medium brown argillaceous, micromicaceous, rare to trace carbonaceous flecks, blocky to subfissile, firm to moderately hard. MOOGA FORMATION: MURTA MEMBER (Early Cretaceous) From 1549-1610 m Thickness: 61 m 1549-1580 m INTERLAMINATED SILTSTONES WITH INTERBEDDED SAND STONES Siltstone: interlaminated (?varved) light brown and light grey argillaceous, micromicaceous and off white to light grey arenaceous, trace carbonaceous flecks, blocky to subfissile, firm to moderately hard. Sandstone: off white to light grey, clear to translucent, very fine to fine, grades to and interlaminated with arenaceous siltstones, rare loose fine to medium grains, moderately sorted, subangular to subrounded, minor white argillaceous matrix, moderate to strong calcareous cement, rare to trace carbonaceous and coal specks, firm to moderately hard, poor visual porosity, no fluorescence. 1580-1610 m SANDSTONES WITH INTERLAMINATED SILTSTONES Siltstone: interlaminated light brown and light grey argillaceous, micromicaceous and off white to light grey arenaceous, moderately dispersive (washing out) trace carbonaceous flecks and laminae, blocky to subfissile, firm. Sandstone: off white to light grey, clear to translucent, very fine to fine, grades to and interlaminated with arenaceous siltstones, well sorted, subangular to subrounded, common white argillaceous matrix, moderate calcareous cement, trace carbonaceous and coal fragments,

trace mica, firm to moderately hard, poor visual porosity, no fluorescence MOOGA FORMATION: NAMUR SANDSTONE MEMBER (Late Jurassic to Early Cretaceous) From 1610-1700 m Thickness: 90 m 1610-1700 m FINING UPWARDS SANDSTONES WITH INTERBEDDED SILTSTONE Sandstone: light grey, clear to translucent, very fine to very coarse, predominantly medium, fining up, moderately to well sorted, subangular to subrounded, common to trace white argillaceous matrix, weak to locally strong calcareous and weak siliceous cements, common quartz overgrowths, locally common carbonaceous and coal fragments (channel fill), trace lithics (light green (chloritic) and brick red), rare to trace mica, locally common light brown oil stained fine grained aggregates (1676m and 1694m), firm to friable, becoming loose and clean with depth, poor to good visual to very good inferred porosity, no fluorescence. Siltstone: interlaminated light grey and light brown argillaceous, grades to moderately dispersive claystone in parts, common light grey arenaceous laminae, trace to common carbonaceous and coal flecks and laminae, locally common micaceous laminae, blocky to subfissile, firm to moderately hard. WESTBOURNE FORMATION (Late Jurassic) From 1700-1805 m Thickness: 105 m 1700-1730 m INTERBEDDED AND INTERLAMINATED SANDSTONES AND SILT STONES Sandstone: light grey, clear to translucent, very fine to silty, grades to and interlaminated with arenaceous siltstone, rare loose coarse to very coarse quartz grains, moderately sorted, subangular to subrounded, minor white argillaceous matrix, weak to moderate calcareous and siliceous cements, trace to common lithics, trace carbonaceous laminae, trace mica, firm to moderately hard, very poor to poor visual porosity, no fluorescence. Siltstone: interlaminated light grey, off white and light brown, arenaceous and argillaceous, moderately dispersive argillaceous matrix, micromicaceous, locally common clay laminae, trace to common carbonaceous flecks, blocky to sucrosic, firm 1730-1805 m INTERBEDDED AND INTERLAMINATED SANDSTONES AND AREN ACEOUS SILTSTONES Sandstone: light grey, clear to translucent, very fine to silty, grades to and interlaminated with arenaceous siltstone, rare loose coarse to very coarse quartz grains, moderately sorted, subangular to subrounded, minor white argillaceous matrix, weak to moderate calcareous and siliceous cements (becoming more siliceous with depth), trace to common lithics, trace carbonaceous laminae, trace mica, firm to moderately hard, very poor to poor visual porosity , no fluorescence Siltstone: interlaminated light grey, off white and light brown, arenaceous and argillaceous, becoming predominantly arenaceous with depth, common to locally abundant moderately dispersive argillaceous matrix (washing out), micromicaceous, locally common clay laminae, common mica, trace to common carbonaceous flecks, blocky to sucrosic, firm. ADORI SANDSTONE (Late Jurassic) From 1805-1837 m Thickness: 32 m 1805-1837 m FINING UPWARDS SANDSTONES AND TRACE SILTSTONES Sandstone: light grey, clear to translucent, very fine to coarse, becoming very fine to coarse with depth, predominantly fine, well sorted, subrounded to subangular, minor white argillaceous matrix, moderate siliceous cement, rare lithics, locally common carbonaceous/micaceous laminae (channel fill), firm to moderately hard, poor visual porosity, no fluorescence Siltstone: light to medium brown, argillaceous with abundant micaceous/ carbonaceous laminae, blocky to subfissile, firm. BIRKHEAD FORMATION (Late Jurassic) From 1837-1926 m Thickness: 89 m 1837-1856 m SANDSTONES WITH THINLY INTERBEDDED SILTSTONES AND COAL

Sandstone: light grey to light brown, clear to translucent, bimodal, medium to very coarse, predominantly medium, moderately sorted, subangular to subrounded, common to minor white argillaceous matrix, weak calcareous and moderate siliceous cements, trace quartz overgrowths, trace carbonaceous and coal flecks and laminae, common mica, firm to moderately hard, poor visual porosity, no fluorescence. Siltstone: light to medium brown, argillaceous, very dispersive (mostly washing out), minor interlaminated light grey and off white arenaceous, common carbonaceous/coaly laminae, grades to silty coal, blocky, firm to soft Coal: dark brown to black, dull to subvitreous, rare vitreous laminae, silty, grades to and interlaminated with carbonaceous siltstone, blocky to subconchoidal, brittle, firm to moderately hard. 1856-1926 m INTERBEDDED SANDSTONES AND SILTSTONES WITH THIN COAL Sandstone: light grey to light brown, clear to translucent, very fine to very coarse, moderately sorted, subangular to subrounded, common to minor white argillaceous matrix, weak calcareous and moderate siliceous cements, common lithics, trace carbonaceous and coal flecks and laminae, common mica, firm to moderately hard, poor visual porosity. Fluorescence: 1857- 1923 m, slight trace to trace, moderately bright to predominantly dull, spotty, green yellow, with slow diffuse to no cut, patchy (powdery) residue (local generation). Siltstone: light to medium brown, argillaceous, micromicaceous, very dispersive (mostly washing out), minor interlaminated light grey and off white arenaceous, common carbonaceous/coaly laminae, grades to silty coal, blocky to subfissile, firm to soft Coal: black, dull to vitreous, commonly silty, grades to and interlaminated with carbonaceous siltstone, blocky to conchoidal, brittle, firm to moderately hard. HUTTON SANDSTONE (Mid Jurassic) From 1926-2031 m Thickness: 105 m 1926-1970 m STACKED FINING UPWARDS CYCLES OF SANDSTONES Sandstone: off white to light grey, clear to translucent, very fine to very coarse, predominantly coarse (fining up), moderately to well sorted, subangular to subrounded, trace white argillaceous and siliceous matrix decreasing with depth, weak to moderate siliceous cement, common to abundant crystalline quartz overgrowths, trace mica, rare garnet, rare feldspar (perthite), trace silty laminae (channel fill), friable to predominantly loose, fair to good inferred porosity, no fluorescence. 1970-2031 m FINING UPWARDS CYCLES OF SANDSTONES WITH MINOR SILT STONES Sandstone: off white to light grey, clear to translucent, very fine to very coarse, predominantly coarse (fining up), moderately to well sorted, subangular to subrounded, trace white argillaceous and siliceous matrix decreasing with depth, weak to moderate siliceous cement, common to abundant crystalline quartz overgrowths, trace mica, rare garnet, rare feldspar (perthite), trace silty laminae (channel fill), trace lithics, moderately hard to loose, poor to fair visual porosity, no fluorescence. Siltstone: dark grey to dark brown, argillaceous, micaceous, common carbonaceous and coal laminae, subfissile, firm. POOLOWANNA FORMATION (Early Jurassic) From 2031-2105 m Thickness: 74 m 2031-2085 m FINING UPWARDS SANDSTONE AND SILTSTONE WITH THIN CHANNEL FILL COAL Sandstone: off white, clear to translucent, very fine to very coarse, moderately sorted, subangular to subrounded, inferred abundant light brown argillaceous matrix (washing out), moderate to weak siliceous cement, trace mica, common quartz overgrowths, rare garnet, moderately hard to loose, poor to fair visual porosity, no fluorescence Siltstone: dark grey to dark brown, argillaceous, micaceous, common carbonaceous and coal laminae,

subfissile, firm. Coal: dark brown to black, dull to vitreous, trace to common argillaceous laminae, grades to carbonaceous claystone, blocky to conchoidal, firm to moderately hard. 2085-2105 m FINING UPWARDS SANDSTONE AND SILTSTONE WITH THIN COAL Sandstone: off white, clear to translucent, very fine to very coarse, moderately sorted, subangular to subrounded, inferred abundant light brown argillaceous matrix (washing out), moderate to weak siliceous cement, trace to common oil stained grains and grain aggregates (2097 m sample), trace bitumen staining (2103 m), trace mica, common quartz overgrowths, rare garnet, moderately hard to loose, poor to fair visual porosity, no fluorescence, no cut Siltstone: dark grey to dark brown, argillaceous, micaceous, common carbonaceous and coal laminae, grades to silty coal, blocky to subfissile, firm. Coal: dark brown to black, dull to vitreous, trace to common argillaceous laminae, grades to carbonaceous siltstone, blocky to conchoidal, firm to moderately hard. CUDDAP AN FORMATION (Late Triassic) From 2105-2108 m Thickness: 3 m 2105-2108 m SANDSTONE AND SILTSTONE The thin interval attributed to this formation is at the limit of sample resolution and was not differentiated from the overlying interval. TINCHOO FORMATION: GILPEPPEE MEMBER (Mid Triassic) From 2108-2194 m Thickness: 86 m 2108-2166 m THINLY INTERBEDDED SILTSTONES AND SANDSTONES Sandstone: off white to light grey, clear to translucent, very fine to coarse, (very fine to fine well rounded grains washing out from very dispersive clays), moderately sorted, subangular to rounded, trace white siliceous matrix, trace aggregates with weak siliceous cement, friable to predominantly loose, no inferred porosity, no fluorescence. Siltstone: off white to light grey to light brown, becoming light green grey with depth, trace brick red, arenaceous, siliceous, micromicaceous (sericitic), trace to common micaceous laminae, abundant to rare nodular siderite (decreasing with depth), subfissile to fissile, firm to moderately hard, (assumed abundant claystone/matrix dispersing into mud system with sample representing competent clasts (metasiltstones, quartzites) within claystone. 2166-2194 m INTERBEDDED SILTSTONES AND SANDSTONES Sandstone: off white to light grey, clear to translucent, very fine to coarse, (very fine to fine well rounded grains washing out from very dispersive clays), moderately sorted, subangular to rounded, trace white siliceous matrix, trace aggregates with weak siliceous cement, friable to predominantly loose, no inferred porosity, no fluorescence. Siltstone: light green grey to light grey green, trace brick red, arenaceous, siliceous, micromicaceous (sericitic), trace micaceous laminae, subfissile to fissile, firm to moderately hard, (assumed abundant claystone/matrix dispersing into mud system with sample representing competent clasts- reworked and weathered metasiltstones and quartzites; 'Basement' lithology). TINCHOO FORMATION: DOONMULLA MEMBER (Mid Triassic) From 2194-2271.5 m Thickness: 77.5 m 2194-2260 m FINING UPWARDS SANDSTONES AND SILTSTONES Sandstone: off white to light grey, clear to translucent, very fine to coarse, common to trace disseminated very coarse, conglomeratic at base, poorly to moderately sorted, subangular to subrounded, trace white siliceous matrix, weak to moderate siliceous cement, rare garnets, rare lithics (grey rock intraclasts), rare oil staining in very fine aggregates (2193 m sample), moderately hard to loose, very poor to poor visual porosity, no fluorescence. Siltstone: dark grey and dark brown, argillaceous, carbonaceous, grades to silty coal, micromicaceous, rare arenaceous laminae, trace coal laminae, rare waxy

argillaceous (?tuffaceous) laminae, blocky to fissile, firm to moderately hard. 2260-2271.5 FINING UPWARDS SANDSTONES AND SILTSTONES Sandstone: off white to light grey, clear to translucent, very fine to medium, moderately sorted, subangular to subrounded, trace white siliceous matrix, weak to moderate siliceous cement, rare garnets, rare lithics (grey rock intraclasts), trace to common coal fragments and laminae, moderately hard to loose, very poor visual porosity, no fluorescence. Siltstone: light to medium grey, argillaceous, micromicaceous, common carbonaceous specks and laminae, common arenaceous laminae, trace coal laminae, subfissile to fissile, firm to moderately hard. ARRABURY FORMATION (Late Permian to Early Triassic) From 2271.5-2498 m Thickness: 226.5 m 2271.5-2322 m “RED BEDS” (METASEDIMENTARY LITHICS WITHIN VERY DISPERSIVE CLAYSTONE) Sandstone: off white to light grey, becoming light grey to pale yellow with depth, clear to translucent, conglomeratic (pebbles in very coarse matrix), becoming medium to very coarse at base, poorly sorted, angular to subrounded, trace white siliceous matrix, moderate to strong siliceous cement (quartzite), common well developed crystalline quartz overgrowths, abundant lithics (light grey to light green grey metasiltstone; up to 40% of sample), very rare pyrite, rare very fine chloritic intraclasts, moderately hard to hard, very poor inferred porosity, rare secondary (grain dissolution) porosity, no fluorescence. Siltstone: brick red, argillaceous, homogeneous, blocky to subfissile, firm to soft. Claystone: probably greater than 90% of the sampled interval consists of very dispersive brick red claystone which is incorporated into the mud. 2322-2370 m SANDSTONE Sandstone: off white, clear to translucent, fine to predominantly medium, well sorted, angular to subrounded, becoming subrounded to rounded with depth, trace white siliceous matrix, weak to moderate siliceous cement, rare garnets, moderately hard to loose, poor to fair visual porosity, no fluorescence. 2370-2420 m “RED BEDS” (SANDSTONE WITHIN VERY DISPERSIVE CLAYSTONE) Sandstone: off white, clear to translucent, fine to predominantly medium, trace to common disseminated coarse to very coarse, moderately to well sorted, angular to subrounded, trace white siliceous matrix, moderate to strong siliceous cement, rare garnets, locally minor heavy mineral (titanomagnetite) laminae with green (chlorite stained) very fine quartz, moderately hard to hard, very poor to poor visual porosity, no fluorescence. Claystone: probably greater than 70% of the sampled interval consists of very dispersive brick red claystone which is incorporated into the mud. The red colour decreases gradually over the interval 2393 to 2420 m. but the clay (grey) content remains the same. 2420-2474 m SANDSTONE Sandstone: off white, clear to translucent, fine to predominantly medium, becoming medium to coarse at base, trace to common disseminated coarse to very coarse, moderately sorted, angular to subrounded, trace white siliceous matrix, moderate to strong siliceous cement, rare garnets, locally common heavy mineral (titanomagnetite) laminae with green (chlorite stained) very fine quartz, abundant feldspar (orthoclase-partially altered), local trace pyrite and pyrite cemented grain aggregates, moderately hard to hard, very poor to rarely fair visual porosity, no fluorescence. 2474-2498 m SANDSTONE Sandstone: off white, clear to translucent, fine to predominantly medium, becoming medium to coarse at base, trace to common disseminated coarse to very coarse, moderately sorted, subangular to subrounded, trace white siliceous matrix, moderate to strong siliceous cement, locally common heavy mineral (titanomagnetite) laminae, abundant feldspar

(orthoclase-partially altered), local trace pyrite and pyrite cemented grain aggregates, moderately hard to loose, very poor visual to fair inferred porosity, no fluorescence. TOOLACHEE FORMATION (Late Permian) From 2498-2535 m Thickness: 37 m 2498-2507 m INTERBEDDED SANDSTONE, COAL AND MINOR SILTSTONE Sandstone: off white to light grey, clear to translucent, fine to very coarse (fining upward), poorly sorted, angular to subrounded, trace white siliceous matrix, weak to moderate siliceous cement, abundant feldspar (orthoclase- partially altered), locally common nodular siderite, moderately hard to loose, poor visual to fair inferred porosity, no fluorescence. Siltstone: light grey, arenaceous, siliceous cement, grades to very fine sandstone as above, common altered feldspar, abundant carbonaceous specks, blocky, moderately hard. Coal: black, vitreous, trace leaf impressions, trace fusinite, blocky, brittle, moderately hard. 2507-2535 m SANDSTONE WITH INTERBEDDED COAL AND TRACE SILTSTONE Sandstone: off white to light grey, clear to translucent, very fine to fine, grades to arenaceous siltstone in parts, becoming conglomeratic (pebbles in very fine to fine matrix), poorly to moderately sorted, angular to subrounded, trace white siliceous matrix, weak to moderate siliceous cement, common feldspar (orthoclase-partially altered), rare calcite fracture infills, firm to moderately hard, poor visual to fair inferred porosity, no fluorescence. Coal: black, vitreous, grades to and interlaminated with carbonaceous siltstone, trace argillaceous laminae, trace fusinite, blocky, brittle, moderately hard. Siltstone: light grey to predominantly light brown, arenaceous, moderate siliceous cement, grades to very fine sandstone as above, common altered feldspar, abundant carbonaceous flecks, blocky, moderately hard. PATCHAWARRA FORMATION (Early Permian) From 2535-2625 m Thickness: 90 m 2535-2583 m INTERBEDDED SANDSTONE, SILTSTONE AND THICK COALS Sandstone: light grey, clear to translucent, conglomeratic (bit fractured pebbles and granules in very fine to fine matrix), poorly sorted, angular to subrounded, trace white siliceous matrix, moderate siliceous cement, common feldspar, moderately hard, poor visual porosity, no fluorescence. Coal: black, vitreous, commonly silty, grades to carbonaceous siltstone as above, trace argillaceous laminae, common fusinite, blocky to subconchoidal, moderately hard. Siltstone: light brown to light grey, arenaceous, moderate siliceous cement, grades to very fine sandstone as above, plus dark grey carbonaceous, micromicaceous, grades to silty coal, common carbonaceous specks, common coal laminae, blocky to fissile, firm to moderately hard. 2583-2606 m INTERBEDDED SANDSTONE, SILTSTONE AND THIN COALS Sandstone: light grey, clear to translucent, conglomeratic to very coarse, (coarsening up, pebbles and granules in very fine to fine matrix), poorly sorted, angular to subrounded, trace white siliceous matrix, moderate siliceous cement, moderately hard, poor visual porosity, no fluorescence. Siltstone: light brown, arenaceous, moderate siliceous cement, grades to very fine sandstone as above, micromicaceous, common oil stained aggregates and rare calcareous fracture infills, locally common muscovite, blocky to sucrosic, firm to moderately hard. Coal: black, vitreous, commonly silty, grades to carbonaceous siltstone as above, trace argillaceous laminae, common fusinite, blocky to subconchoidal, moderately hard. 2606-2625 m DOLOMITIC SILTSTONES Siltstone: light to medium grey and off white to light brown, argillaceous, dolomitic, locally common very fine nodular siderite, blocky to fissile, firm to moderately hard. COOLADDI DOLOMITE (Late Devonian) From 2625-2670 m

Thickness: 45 m + 2625-2670 m DOLOMITE Dolomite: light grey to white to clear, rhombohedral cleavage, abundant emerald green chlorite mica, slightly to moderately calcareous, grades to magnesian limestone with depth, common calcite fragments, trace to common disseminated coarse quartz grains, rare to abundant disseminated crystalline pyrite, chalky to crystalline, friable to moderately hard.

APPENDIX 8 SIDEWALL CORE DESCRIPTIONS M.I.M. PETROLEUM EXPLORATION PTY. LTD. M.I.M. PETROLEUM EXPLORATION PTY LTD SIDEWALL CORE REPORT WELL: MAJESTIC 1 DATE: 17/06/94 BULLETS SHOT: 24 RECOVERED: 22 BOUGHT: 22 NO RECOVERIES: LOST: 0 EMPTY: 2 BROKEN: BULLET TYPE: SHOT SIZE: gms RINGS FITTED: WELL INFORMATION LOG SUITE No: 1 RUN: 2 GEOLOGIST: E. GREWAR No. OF PREVIOUS SWC RUNS: 0 LOGGING ENGINEER: W. EMERY SWC No. DEPTH (m) REC. (mm) PALYN EVAL DESCRIPTION 1 2653 20 DOLOMITE: light grey to white, crystalline, rhombohedral cleavage, abundant chalky matrix, trace green chlorite mica, abundant pyrite fracture infills, hard, poor visual (intergranular) porosity, good fracture porosity, no fluorescence. 2 2626 25 DOLOMITE: light grey to white, crystalline, rhombohedral cleavage, abundant chalky matrix, rare coarse quartz grains (with biotite inclusions), rare clay intraclasts (?weathered metasiltstones), abundant disseminated crystalline pyrite, hard, poor visual (intergranular) porosity, no fluorescence. 3 2610 15 DOLOMITIC SILTSTONE: medium brown grey, argillaceous, dolomitic, homogeneous, blocky, hard. 4 2589 18 CLAYSTONE: medium brown, homogeneous, very dispersive (cryptofissile), common carbonaceous flecks, common disseminated coal fragments, rare discontinuous coal laminae, blocky, firm. 5 2548 15 SILTSTONE: dark brown, mottled medium grey, argillaceous, microcarbonaceous, very dispersive (cryptoturgid), moderately bioturbated, common arenaceous infilled burrows, trace remnant laminar structure, blocky, firm. 6 2531.5 20 SILTSTONE: interlaminated off white to light brown, arenaceous and black, carbonaceous/coal, grades to very fine sandstone, common slightly distorted coal laminae (0.2-1.0 mm), blocky to sucrosic, friable to firm. 7 2524 18 CLAYSTONE: dark grey with light grey silty microlaminae parallel to core axis, microcarbonaceous, blocky, moderately hard.. 8 2508 — EMPTY, CHIPPED BULLET. 9 2501 25 COAL: black, dull, silty, micromicacous, blocky, moderately hard. 10 2494 20 SILTSTONE: light grey, argillaceous, microcarbonaceous (laminae), trace disseminated micropyrite, minor moderately dispersive clay laminae, blocky, moderately hard. 11 2487 18 SILTSTONE: light grey, very argillaceous, grades to claystone, non- dispersive, slightly micromicaceous, slightly siliceous, trace COMMENTS swc No. DEPTH (m) REC. (mm) PALYN EVAL DESCRIPTION carbonaceous detritus, slightly sticky, blocky, moderately hard. 12 2302 10 SILTSTONE: light grey, argillaceous, siliceous, homogeneous, common pale pink partially altered feldspar, abundant Fe stained grains, blocky, moderately hard. 13 2231.5 25 CLAYSTONE: brick red, homogeneous, trace pale reduction spots, non-dispersive, slightly micromicaceous, blocky, firm. 14 2262 18 SILTSTONE: medium grey, argillaceous with light grey discontinuous arenaceous laminae, slightly calcareous, minor microcarbonaceous laminae, trace coaly detritus, moderately dispersive (cryptofissile), blocky, moderately hard. 15 2230 22 CLAYSTONE: dark grey to black, carbonaceous, grades to coal, homogeneous, non-dispersive, micromicaceous, blocky to splintery, firm. 16 2160 10 SILTSTONE: light grey, arenaceous, siliceous, minor argillaceous laminae, trace carbonaceous specks, blocky, moderately hard. 17 2113 20 SILTSTONE: light grey, arenaceous, siliceous, micromicaceous, trace carbonaceous fragments, blocky, moderately hard. 18 2098 13 SILTSTONE: medium brown, argillaceous, minor arenaceous laminae, micromicaceous, carbonaceous, blocky, firm. 19 2087 — EMPTY, CHIPPED BULLET. 20

2070 12 CLAYSTONE: microlaminated light and medium grey brown, micromicaceous, non-dispersive, rare disseminated well rounded medium quartz grains, blocky, firm. 21 2032 10 SILTSTONE: interlaminated off white arenaceous and medium brown argillaceous, common carbonaceous flecks, blocky, firm. 22 1885 10 CLAYSTONE: medium brown, carbonaceous, abundant coal fragments (lamina shattered by core impact), sticky, blocky, moderately hard to soft. 23 1709 13 CLAYSTONE: light grey, homogeneous, non-dispersive, blocky, firm. 24 1443 20 CLAYSTONE: dark grey, homogeneous, moderately dispersive, rare pyrite infilled worm burrows, blocky, firm. ] COMMENTS 4 AGSO, MIM MAJESTIC-1 KK/Ref. Depth(m) R max V Range N Sample type v9721 1443 0.62 0.46-0.78 9 SWC24 v9722 1709 0.63 0.54-0.75 10 SWC23 v9723 1885 0.75 0.62-0.87 25 SWC22 v9724 2032 *0.73 0.53-0.93 38 SWC21 v9725 2070 *0.82 0.65-0.95 26 SWC20 v9726 2098 *0.79 0.66-0.92 26 SWC18 v9727 2113 70.67 1 SWC17 R^max 1.45 1.10-1.73 6 v9728 2160 0.92 - 1 SWC16 R^.max 2.04 1.28-2.58 10 v9729 2230 0.96 0.79-1.07 11 SWC15 v9730 2262 1.03 0.89-1.15 25 SWC14 v973l 2302 1.13 — 1 SWC12 R^max 2.10 1.57-2.39 4 v9732 2487 1.52 1.44-1.59 21 swell v9733 2494 1.38 1.26-1.45 5 SWC10 R^max 1.72 1.56-2.12 13 v9734 2501 1.44 1.33-1.59 26 SWC9 v9735 2524 1.41 1.27-1.58 5 SWC7 R^max 2.39 1.74-3.03 10 v9736 2531.5 1.35 1.20-1.56 26 SWC6 v9737 2548 1.31 1.21-1.41 3 SWC5 R^max 2.19 1.77-2.92 10 v9738 2589 71.44 - 71 SWC4 R^max 2.06 1.73-2.70 21 v9739 2610 - SWC3 R^max 1.84 - 1 v9740 2626 — - SWC2 R^max 2.26 1.76-3.10 3 v9741 2653 71.41 - 71 SWC1 R max 2.54 1.68-3.22 6 1 Sparse cutinite, sporinite and lamalginite, yellow to dull orange. (Siltstone>claystone. Oom abundant, V>L>I. Vitrinite common, liptinite and inertinite sparse. Oil drops rare, bright green. Mineral fluorescence pervasive, moderate green to orange. Iron oxides sparse. Pyrite sparse.) 1885 SWC22 v9723 v9724 2032 *0.73 0.53-0.93 SUC21 AGSO, HIM MAJESTIC-1 Depth(m) Description Including Type R max V Range M Liptinite (Exinite) Fluorescence 1443 0.62 0.46-0.78 9 Common lamalginite, yellow to orange, sparse sporinite and SWC24 cutinite, yellow to orange. (Claystone>siItstone. Dom L>I?>V. Liptinite abundant, inertinite common, vitrinite rare. Mineral fluorescence pervasive, yellow to weak orange. Iron oxides sparse. Pyrite conmon.) 1709 0.63 0.54-0.75 10 Conmon lamalginite, yellow to orange, sparse sporinite. SUC 23 yellow to dull oranoe. rare Botryococcus-related telalainite. bright yellow to orange. (Carbonate>calcareous silty claystone. Dom conmon, L>i»V. Liptinite and inertinite common, vitrinite rare. Oil drops rare, bright green. Mineral fluorescence pervasive, moderate green to orange. Iron oxides sparse. Pyri te common.) KK/Ref. No. v9721 v9722 0.75 0.62-0.87 25 38 Sparse cutinite, yellow to dull orange, rare sporinite and lamalginite, yellow to dull orange. (Sandstonexsi ltstone»coal. Coal rare, V»I»L, vitrite>inertite. Dem abundant, V»!>L. Vitrinite abundant, inertinite comnon, liptinite sparse. The vitrinite conmonIy shows moderate orange to brown fluorescence. However, the vitrinite in the higher range of the reflectance spectrum (that is > 0.85%) shows weaker fluorescence intensity. Mineral fluorescence pervasive, moderate green to weak orange. Iron oxides sparse. Pyrite sparse.) v9725 2070 SWC20 v9726 2098 SWC18 *0.82 0.65-0.95 26 Sparse cutinite and sporinite, orange to brown, rare resinite and liptodetrinite, orange to brown. (Siltstone>claystone>coal. Coal rare, V»I>L, duroclarite=vitrite. Dam common, I>L>V. Inertinite and liptinite common, vitrinite sparse. *The vitrinite conmonly shows moderate orange to brown fluorescence. However, the

vitrinite in the higher range of the reflectance spectrun (that is > 0.85%) shows weaker fluorescence intensity. Reworked vitrinite rare, R max - 1.03 - 1.32%. Mineral v fluorescence pervasive, moderate green to orange. Iron oxides sparse. Pyrite sparse.) c AGSO, MIM MAJESTIC-1 (CONTINUED) KK/Ref. Depth(m) Description Including No. Type R max V Range N Liptinite (Exinite) Fluorescence v9727 2113 70.67 - 1 Rare Iiptodetrinite, yellow to orange. (Carbonate>calcareous SUC17 R max I 1.45 1.10-1.73 6 claystone. Dom rare, I>L>V. All three maceral groups rare. ?The vitrinite is probably additives derived. Mud additives rare. Mineral fluorescence pervasive, moderate yellow to orange. Iron oxides rare. Pyrite sparse.) v9728 2160 0.92 - 1 Fluorescing liptinite absent. (Carbonate>calcareous claystone. SUC16 R max I 2.04 1.28-2.58 10 Dorn sparse, 1»V. Inertinite sparse, vitrinite rare, liptinite absent. Mineral fluorescence pervasive, moderate yellow to orange. Iron oxides sparse. Pyrite sparse.) v9729 2230 SWC15 0.96 0.79-1.07 11 Rare cutinite, resinite and sporinite, orange to brown. (Calcareous siIty claystone>carbonate>coal. Coal rare, I only, inertite. Dem common, I»V>L. inertinite camon, vitrinite and liptinite rare. Oil drops rare, bright green. fluorescence pervasive, yellow to weak orange. Iron oxides cannon.) Mineral Pyrite abundant. v9730 2262 SWC14 1.03 0.89-1.15 25 Rare cutinite and sporinite, orange to brown. (Siltstone> sandstone. Dorn cornnon, I»V>L. Inertinite co/nnon, vitrinite sparse, liptinite rare. Mineral fluorescence pervasive, moderate yellow to weak orange. Iron oxides cannon. Pyrite sparse.) v9731 2302 1.13 - SUC12 R I max 2.10 I 1.57-2.39 1 Rare cutinite, orange. (Carbonate»calcareous claystone. 4 Oom rare, I>L>V. All three maceral groups rare. Hud additives, rare. All three maceral groups rare, in mud additives. The reflectance of the vitrinite in mud additives = 0.77*4. Mineral fluorescence pervasive, moderate yellow to orange. Iron oxides sparse. Pyrite sparse.) v9732 2487 sue 11 1.52 1.44-1.59 21 Fluorescing liptinite absent. (Calcareous claystone. Oom sparse, I»V. Inertinite sparse, vitrinite rare, liptinite absent. Mud additives rare. All three maceral groups rare in mud additives. The reflectance of vitrinite in mud additives ranges from 0.58% to 1.11%. Mineral fluorescence pervasive, moderate yellow to weak orange. Iron oxides sparse. Pyrite sparse.) v9733 2494 1.38 1.26-1.45 5 Rare sporinite, dull orange. (Calcareous siltstone>carbonate. SWC1O R max 1.72 1.56-2.12 13 Oom comnon, I>V>L. Inertinite common, vitrinite and liptinite rare. Mud additives rare. Mineral fluorescence pervasive, moderate yellow to orange. Iron oxides common. Pyrite sparse.) v9734 2501 SWC9 1.44 1.33-1.59 26 Rare cutinite and sporinite, dull orange to brown. (Shaly coal> coal=claystone. Shaly coal dominant, inertite>vitrinertite> vitrite. Mineral-free maceral group canposition of the shaly coal: vitrinite - 6%, inertinite - 94%, liptinite - tr. Coal common, I>>V»L, inertite>vitrinertite>vitrite. Don sparse, l»V. Inertinite sparse, vitrinite rare, liptinite absent. Mineral fluorescence pervasive, orange to weak orange. Iron oxides sparse. Pyrite sparse.) KK/Ref. Depth(m) No. Type R max V Range v9735 2524 1.41 1.27-1.58 SWC7 R max 1 2.39 1.74-3.03 v9736 2531.5 1.35 1.20-1.56 N 26 SWC6 5 10 to coal* Shaly v9737 2548 SWC5 max 1.31 2.19 1.21-1.41 1.77-2.92 3 10 Fluorescing liptinite absent. (Calcareous siltstone»sanastone. Dom abundant, I»V. Inertinite abundant, vitrinite rare, liptinite absent. Mineral fluorescence pervasive, yellow to weak orange. Iron oxides comnon. Pyrite comnon.) v9738 2589 SWC4 R max I 71.44 2.06 1.73-2.70 71 21 Fluorescing liptinite absent. (Silty claystone. Dom abundant, Inertinite abundant, Tvitrinite rare, liptinite absent.

Inertinite occurs as relatively large phytoclasts of semifusinite and macrinite. Some represent drifted material but some may represent root tissue that has become oxidised in situ close to the time of sedimentation. Mineral fluorescence pervasive, yellow orange. Iron oxides common. Pyrite rare.) v9739 2610 SWC3 1.84 Fluorescing liptinite absent. (Sideritic siltstone and clay rich mud cake. Dom rare in sample, rare inertinite only, sparse in mud cake, !»V in mud cake. Vitrinite in mud cake with reflectance of 0.7%. Mineral fluorescence pervasive, yellow to weak orange. Iron oxides common but probably restricted cake. Pyrite rare.) to mud v9740 2626 SWC2 R max I 2.26 1.76-3.10 rare Mud Fluorescing liptinite absent. (Sandstone>carbonate. Dom I only. Inertinite rare, vitrinite and liptinite absent, additives sparse. The reflectance of the vitrinite in mud cake = 1.16%. Mineral fluorescence pervasive, weak green to yellow. AGSO, HIM MAJESTIC-1 (CONTINUED) Description Including Liptinite (Exinite) Fluorescence Fluorescing liptinite absent. (Calcareous siltstone>claystone. Dom abundant, I>>V. Inertinite abundant, vitrinite rare, liptinite absent. Mineral fluorescence pervasive, yellow orange. Iron oxides ccmmon. Pyrite sparse.) Fluorescing liptinite absent. (Sandstone>siltstone>shaly coal. Coal sparse, I>>V, vitrinertite>inertite>vitrite. coal abundant, inertite>vitrinertite. Mineral-free maceral group composition of the coal: vitrinite - 3%, inertinite - 97%, liptinite - 0%. Dom abundant, 1»V. Inertinite abundant, vitrinite rare, liptinite absent. Mud additives sparse. The reflectance of the vitrinite in mud additives = 0.66%. Mineral fluorescence pervasive, moderate green to weak orange. Iron oxides conmon. Pyrite sparse.) v9741 2653 71.41 - ?1 Fluorescing liptinite absent. (Sandstone>siltstone>carbonate> SWC1 R^max 2.54 1.68-3.22 6 ?coal. ?Coal, probably associated with mud additives, rare. !>>V, inertite=vitrinertite. Dom rare, 1 only. Inertinite rare, vitrinite and liptinite absent. Mud additives common. The reflectance of vitrinite in mud additives range from 0.76% to 1.22%. Mineral fluorescence patchy, weak green to yellow. Iron oxides abundant but mainly concentrated in mud additives. Pyrite abundant.) 18 rS 9- * 6- 1443n 9 0.62 0.107 V9721 FREQUENCY at i > 1 1.95 5- 4- 3- 1- | 8 | |—| 1 1—I ,—,—!—, ,—,—, ,—,— 8.45 8.70 0.95 1.20 Rv Max class intervals at < 1 : 0.85 > S* FREQUENCY at 10-i 9- 8- ?- 6- 5- 4- No. readinsrs 10 Rv Max 0.63 Std. Dev. : 0.064 XX SanpIe No. : v9722 Keirauille Xonsultants Pty. Ltd. 10-r 9- . 1885m ; as : 0.75 : 0.068 : v9723 A FREQUENCV at 7- 6- [—- 5- I !—]— 4- 3- 2 —. 1- 8 I |—I—J 1—,—,—,—]—,—,—,—, !—,— 0.60 0.85 1.10 1.35 Rv Max class intervals at < 1 : 0.05 > 1 |—! > 1 r 1.60 1.85 -> . 1 1 2.10 28 n 18- N 16- Ref . : AGSO, MAJESTIC-1 No. reAdings RV MAX Std. Dev. XK SAHple No. , 2838m : 38 : 8.73 : 8.087 : V9724 FREQUENCY At 14- 12- 10- 8- 6- 4- 2- a-)—i—i—i—i 8.58 8.75 1 1.88 ' I 1.75 1 f 2.88 FREQUENCY at i 1 1 r 1. A3 Ref . 2070m 26 : 0.82 : 0.863 : V9725 Rv Max class intervals at 0.05 > - 1—| 2.15 vi tri ni te FREQUENCY at 2098m : 26 0.79 □□0.070 v9726 vi trinite - 1.65 0.65 1.40 Rv nax class 0.05 > FREQUENCE at Zl 2113n : l□□ □ : 0.67 : 0.000 : v9727 vi tri ni te Inert inite 10-, 9- rS H 8- 7 - V 6- 5- Ref . : AGSO, MAJESTIC-1, 2160m No. readings 1 Rv nax : 0.92 Std. Dev. : 0.000 XX Sanple No. : v9728 FREQUENCY at 4- Xeirauille Xonsultants Pty. Ltd. - Inertinite A 9- * 6- 2230m 11 : 0.96 : 0.090 09729 AGSO, MAJESTIC-1, No. readings Rv MAX Std. Dev, kk Sanple No. FREQUENCY at 5- 4- 10 Ref. : AGSO, MAJESTIC-1, 2262m No. readings 25 Rv Max 1.03 Std. Dev. : 0.082 XX SaMple No. : u9730 FREQUENCY at 1 1— 1 1.60 I ~ ! - vitrinite Ru nax class intervals at < 1 : 0.05 > 10—> 9- A 2302m 1 : 1.13 : 0.000 v9731 s* 6- FREQUENCY at 5- 4- 3- 2- 0 1 , r—> 1 1.10 1.35

2.10 2.35 2.60 ' vi tri nite - Inert i ni te FREQUENCY At 9- AGSO, MAJESTIC-1. No. readings□ Kv Max Std. Dev. XX Sanple No. 2487m : 21 : 1.52 : 0.040 : v9732 i 1 r 1.90 i 1 1 r 2.15 2.90 Rv nax class intervals at 0.05 > IZ3 - vi tirini te * 6- No. readings : 5 Rv max 1.38 Sid. Dev. : 0.071 KK Sample No. : v9733 FREQUENCE at 5- Keiraville Consultants Pty, Ltd. - Inertini te 10 No. readings 26 Rv Max : 1.44 Std. Dev. : 0.070 XX Sample No. : v9734 FREQUENCY at 0.05 > vi tri ni te Ru nax class intervals at - FREQUENCY at 10-n 9- 8- 7- 6- 5- 4- No. □□readings 5 Rv Max : 1.41 Std. Dev. : 0.099 XX Sample No. ; V9735 95 Inertinite FREQUENCE at Ref. : AGSO, MAJESTIC-1, No. readings Rv nax Std. Dev. XX Sartple No. 2531.5m : 26 : 1.35 : 0.101 : v9736 1.95 2.20 2.45 Rv nax class intervals at < 1 : 0.05 > n 1 . 1 2.70 vi trini te

APPENDIX 9 VITRINITE REFLECTANCE REPORT FREQUENCY at Ref. : AGSO, MAJESTIC-1, 2548m I ne r t i n i t e Xeiraville Xonsultants Pty. Ltd. FREQUENCY at Ref. : AGSO, MAJESTIC 2589M Keiraville konsultants Pty. Ltd. Ref . 10—i 9- M 8- 7- * 6- 5- 4- 3- 2- 1 0-| 1 , 1 1 r-p-, , . > . 1.80 2.05 2.30 2.55 Rv max class intervals at < 1 : 0.05 > FREQUENCV st Keiraville Konsultants Pty. Ltd. : AGSO, MAJESTIC No. readings Rv nax Std. Dow. XX Sample No. 2610M : l : 1.84 : 0.000 : U9739 ’ I 3 .05 i i i | 3 .30 vi tri ni te 10 9- A A 8- Ref. : AGSO, MAJESTIC-1, 2626m No. readings - Rv Max - Std. Dev. XX Sanple No. : v9740 7- FREQUENCE at 5- 4- 3- 2- 1.75 2.00 2.25 - Inertinite Rv nax class intervals at < 1 : 0.65 > Xeiraville Konsultants Pty. Ltd. 10 ReF . : AGSO, tlAJESTIC-1, 2653m 9- A No. readings 1 Rv nax 1.41 Std. Dev. : 0.000 KK Sanpie No. : v9741 * 6- FREQUENCY at 5- 4- 3- 2- Rv nax class intervals at 0.15 > Keiraville Konsultants Pty. Ltd. R No Read Pop Range R No Read Pop Ranee R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range 0.10 0.40 0.70 1.00 1.30 1.60 1.90 0.11 0 41 0.71 1.01 1.31 1.61 1.91 0.12 0.42 0.72 t 1.02 1.32 1.62 1.92 0.13 0.43 0.73 1.03 1.33 1.63 1.93 0.14 044 0.74 1.04 1.34 1.64 1.94 0.15 0.45 0.75 1 F6v 1.05 1.35 1 65 1.95 0.16 0.46 1 / t 0.76 1.06 1.36 1.66 1.96 0.17 0.47 0.77 1.07 1.37 1.67 1.97 0.18 0.48 0.78 1 1.08 1.38 1.68 1.98 0.19 0.49 1 0.79 1.09 1.39 1.69 1.99 0.20 0.50 0.80 1. to 1.40 1.70 2.00 0.21 0.51 0.81 1.11 1.41 1.71 2.01 0.22 0.52 0.82 1.12 1.42 1.72 2.02 0 23 0.53 0.83 1.13 1.43 1.73 2.03 0.24 0.54 0.84 1.14 1.44 1.74 2.04 0.25 0.55 0.85 1.15 1.45 1.75 2.05 0.26 0.56 0.86 1.16 1.46 1.76 2.06 0.27 0.57 f-/ 0.87 1.17 1.47 1.77 2.07 0.28 0.58 w— 0.88 1.18 1.48 1.78 2.08 0.29 0.59 | 0.89 1.19 1.49 1.79 2.09 0.30 0.60 1 0.90 1.20 1.50 1.80 2.10 0.31 0.61 0.91 1.21 1.51 1.81 2.11 0.32 0.62 0.92 1.22 1.52 1.82 2.12 0.33 0.63 0.93 1.23 1.53 1.83 2 13 0.34 0.64 0.94 1.24 1.54 1.84 2.14 0.35 0 65 0.95 1.25 1.55 1.85 2.15 0.36 0 66 0.96 1.26 1.56 1.86 2.16 0.37 0.67 0.97 1.27 1.57 1.87 2.17 0.38 0.68 0.98 1.28 1.58 1.88 2.18 0.39 0.69 0.99 1.29 1.59 1.89 2.19 VITRINITE INERTINIT LIPTINITE OIL DROPS BITUMEN TV DV Sfus Scler Fus Macr ID Mier Spor Cut Sul) Res Ld Bihiininitc Tclalginitc Lamalginitc Oil cut R No Rend Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Ra »E e R No Read Pop Range R No Read Pop Range 0.10 0.40 0.70 1.00 1.30 1.60 1.90 0 11 0.41 0.71 1.01 1.31 1.61 1.91 0.12 0.42 0.72 1 1.02 1.32 1.62 1.92 0.13 0.43 0.73 1.03 1.33 1.63 1.93 0.14 0.44 0.74 1.01 1.34 1.64 1.94 0.15 0.45 0.75 1 r 1.05 1.35 1.65 1.95 0.16 0.46 0,76 1.06 1.36 1.66 1,96 0.17 0.47 0.77 1.07 1.37 1.67 1.97 0.18 0.48 0.78 1.08 1.38 1.68 1.98 0.19 0.49 0.79 1.09 1.39 1.69 1.99 0.20 0.50 0.80 1.10 1.40 1.70 2 00 0.21 0.51 0.81 111 1.41 1.71 2.01 022 0.52 0.82 1.12 1.42 1.72 2.02 0.23 0.53 0.83 1.13 1.43 1.73 2.03 0 21 0.54 | / 0.84 1.14 1.44 1.74 2 01 0.25 0.55 0.85 1.15 1.45 1.75 2(15 0.26 0.56 0.86 1.16 1.46 1.76 2.06 0 27 0.57 “I 0.87 1.17 1.47 1.77 2 07 0 28 0.58 / 0.88 1.18 1.48 1.78 2.08 0.29 0.59 1 0.89 1.19 1.49 1.79 2.09 0.30 060 0.90 1.20 1.50 1.80 2.10 0.31 0.61 1 0.91 1.21 .1.51 1.81 2 11 0.32 0.62 0.92 1.22 1.52 1.82 2 12 0.33 0.63 0.93 1.23 1.53 1.83 2.13 0.34 0.64 0,94 1.24 1.54 1.84 2.14 0.35 0 65 0.95 1.25 1.55 1.85 2.15 0.36 0.66 0.96 1.26 1.56 1.86 2.16 0.37 0.67 1 0.97 1.27 1.57 1.87 2.17 0.38 0.68 0.98 1.28 1.58 1.88 2.18 0.39 069 0.99 1.29 1.59 1.89 2.19 VITRINITE <£)’/ INERTIN1T 0-5 LIPTIN TE &G7. Sclcr Fus Macr ID Cut Sub Res l.d Bihuninilc i'clalgiiulc Luinalginitc ot Oil cut Sample Number.. V 9.1^3.... Well Name. A& S.Q.j -.!.... Depth Sample type... R No Read Pop Range R No Rend Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range 0 10 0.40 0.70 1.00

1.30 1.60 1.90 0 11 0.41 0.71 1 1.01 1.31 1.61 1 91 0.12 0.42 0.72 1.02 1.32 1.62 1.92 0.13 0.43 0.73 I 1.03 1.33 1 63 1.9.3 0.14 0.44 0.74 1 1.04 1.34 1.64 1.94 0.15 0.45 0.75 1 1.05 1.35 1 65 1.95 0.16 046 0.76 1.06 1.36 1.66 1.96 0.17 0.47 0.77 3 1.07 1.37 1.67 1.97 0.18 0.48 0.78 1.08 1.38 1.68 1.98 0.19 0.49 0.79 I 1.09 1.39 1.69 1.99 0.20 0.50 0 80 2- 1,10 1.40 1.70 2.00 0 21 0.51 0.81 1 1.11 1.41 1.71 2.01 0 22 0.52 0.82 3 1.12 1.42 1.72 2.02 0.23 0.53 0.83 1.13 1.43 1.73 2 03 0 24 0.54 0.84 1.14 1 44 1.74 204 025 0.55 0.85 1.15 1.45 1.75 2.05 0.26 0.56 0.86 I 1.16 1.46 1.76 2.06 0 27 0.57 0.87 1 1.17 1.47 1.77 207 0 28 0.58 0.88 1.18 1.48 1.78 2.08 0 29 0.59 0.89 1.19 1.49 1.79 2.09 0.30 0.60 0.90 1.20 1.50 1.80 2.10 0.31 0.61 0.91 121 1.51 1.81 2 11 0.32 0.62 | A 0.92 1.22 1 52 1.82 2 12 0.33 0.63 0.9.3 1.23 1.53 1.83 2 13 0.34 0.64 0.94 1.24 1.54 1.84 2 14 0.35 0.65 0.95 1.25 1.55 1,85 2 15 0.36 0.66 0.96 1.26 1.56 1.86 2.16 0.37 0,67 0.97 1.27 1.57 1.87 2.17 0.38 0.68 2 0.98 1.28 1.58 1 88 2.18 0.39 0.69 2- 0.99 1.29 1.59 1.89 2.19 i 4t;\i VITRINITE /• 5 Z INERTINITE O'5/ LI PTIN I E TV DV Sfus Stier I'us Macr IQ Mier Spur 01 Cut Sub D'l Res l.d Biliuninile Telalginitc I.ainalginitc R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range 0.10 0.40 0.70 “7~~ 1.00 1.30 1.60 1.90 0.11 0.41 0.71 1.01 1.31 1.61 1.91 0.12 0.42 0.72 1.02 1.32 1.62 1.92 0.13 0.43 0.73 2 1.03 1.33 1.63 1 93 0.14 0.44 0.74 1.04 1.34 1.64 1 94 0.15 0.45 0,75 1.05 1.35 1.65 1.95 0.16 0.46 0.76 1.06 1.36 1.66 1.96 0.17 0.47 0.77 | 1.07 1.37 1.67 1.97 0.18 0.48 0.78 3 1.08 1.38 1.68 1.98 0.19 0.49 0.79 1.09 1.39 1.69 1.99 0.20 0.50 0.80 1 1.10 1.40 1.70 2.00 0.21 0.51 0.81 2 111 1.41 1.71 2.01 0.22 0.52 0.82 1.12 1.42 1.72 2.02 0.23 0.53 1 / 0.83 1.13 1 43 1.73 2.03 0.24 0.54 0.84 1.14 1.44 1.74 2.04 0.25 0.55 0.85 1.15 1.45 1.75 2.05 0.26 0.56 / 0.86 1.16 1.46 1.76 2.06 0.27 0.57 0.87 1.17 1.47 1.77 2.07 0.28 0.58 0.88 1.18 1.48 1.78 2.08 029 0.59 0.89 1.19 1.49 1.79 2.09 0.30 0.60 0.90 1.20 1.50 1.80 2.10 0.31 0.61 3 0.91 1 1.21 1.51 1.81 2.11 0.32 0.62 0.92 1.22 1.52 1.82 2.12 0.33 0.63 / 0.93 1 r~ 1.23 1.53 1.83 2 13 0.34 0.64 0.94 1.24 1.54 1 84 2 14 0.35 0.65 0.95 1.25 1.55 1.85 2 15 0.36 0.66 0.96 1.26 1.56 1.86 2.16 0.37 0.67 0.97 1.27 1.57 1.87 2.17 0.38 0.68 i 0.98 1.28 1.58 1 88 2 18 0.39 0.69 0.99 1.29 1.59 1.89 2.19 VITRINITE 2'A INERTINIT 17 LIPTINITE £> 3/. OIL DROPS BITUMEN TV DV Shis Sclcr Fus Macr ID Mier Spor Z.0 1 Cut 05 Suli Res ■Ld Bihiniinitc Tclalginilc Lamalginilc Oil cut Sample Number...\/.3.?.^..... Well Name... Depth....2^.33. Dr... Sample type R No Read Pop Range R No R ead Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range 0.10 0.40 0.70 1.00 1.30 1.60 1.90 0 11 0.41 0.71 1.01 1.31 1 61 1.91 0 12 0.42 0.72 1.02 1.32 i 1.62 1.92 0 13 0.43 0.73 1.03 1.33 1 63 1.93 0 14 0.44 0.74 1.04 1.34 1.64 1.94 0.15 0.45 0.75 1.05 1.35 1.65 1.95 0.16 0.46 0.76 106 1.36 1.66 1.96 0.17 0.47 0.77 1 107 1 fiv 1.37 1,67 1.97 0.18 0.48 0.78 1.08 1.38 1.68 1.98 0.19 0.49 0.79 1 1.09 1.39 1.69 1.99 0.20 0.50 0.80 1.10 1.40 1.70 2.00 021 0.51 0.81 1 1.11 1.41 1.71 2.01 0.22 0.52 0.82 “5" 1.12 1.42 1.72 202 0 23 0.5.3 0.83 1.13 1.43 1.73 2.03 0 24 0.54 0.84 a 1.14 1.44 1 74 2.04 0.25 0.55 0.85 i 1.15 1.45 1.75 2.05 0 26 0.56 0.86 1.16 1.46 1.76 2 06 0 27 0.57 0.87 i 1.17 1.47 1.77 2.07 0 28 0.58 0.88 1.18 1.48 1.78 2.08 0 29 0.59 0.89 i 1.19 1.49 1.79 2.09 0.30 0.60 0.90 i 1.20 1.50 1.80 2.10 0 31 0.61 0.91 121 1.51 1.81 2.11 0 32 0.62 0.92 1.22 1 52 1.82 2.12 0 33 0.63 0.93 1.23 1.53 1.83 2 13 0 34 0.64 0.94 1 24 1.54 1.84 2.14 O..35 0.65 1 0.95 i ( 1 25 1.55 1.85 2.15 0 36 0.66 0.96 1.26 1.56 1.86 2.16 0 37 0.67 0.97 1.27 1.57 1.87 2.17 0.38 (1.68 0.98 1.28 1.58 1 88 2.18 0.39 0.69 1 0.99 1.29 1.59 1.89 2.19 rk 4 I? KT

VITRINITE INERT1NIT Spor Cut 0-2- 0^ Sclcr Fus Macr ID LIPTINITE ^•6/. Telalginitc Bi turn inilc Lanialginilc Oil cut Sample Number Well Name...6.& S<?j Depth.. 39.™ ■Sample type. R No Read Pop Range R No Read Pop Range R No Read pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range 0.10 0.40 0,70 X 1.00 1.30 1.60 1.90 0.11 0.41 0.7] “1 1.01 1.31 1.61 I 91 0.12 0.42 0.72 1.02 1.32 1.62 1.92 0.13 0.43 0.73 2- 1.03 1.33 1.63 1.93 0.14 0.44 0.74 1.04 1.34 1.64 1.94 0.15 0.45 0.75 1 1.05 1.35 1.65 1.95 0.16 0.46 0,76 X 1.06 1.36 1.66 1.96 0.17 047 0.77 1.07 1.37 1.67 1.97 0.18 0.48 0.78 1.08 1.38 1.68 1.98 0.19 0.49 0.79 1 1.09 1.39 1.69 1.99 0.20 0.50 0.80 2- 1.10 1.40 1.70 2.00 0.21 0.51 0.81 3 1.11 1.41 1.71 2.01 022 0.52 0.82 1 1.12 1.42 1.72 2.02 0.23 0 53 0.83 a 1.13 1.43 1.73 2.03 0.24 0.54 0.84 i 1.14 1.44 1.74 2 04 0.25 0.55 0.85 1.15 1.45 1.75 2.05 0 26 0.56 0.86 i 1.16 1.46 1.76 2.06 027 0.57 0.87 1.17 1.47 1.77 2.07 0.28 0 58 0.88 x 1.18 1.48 1.78 2.08 0.29 0.59 0.89 i 1.19 1.49 1.79 2 09 0.30 0.60 0.90 1.20 1.50 1.80 2.10 0.31 0 61 0.91 1 21 1.51 1.81 2.11 0.32 0.62 0.92 i x 1 22 1.52 1.82 2 12 0.33 0.63 0.93 1.23 1.53 1.83 2.13 0.34 0.64 0.94 1.24 1 54 1.84 2 14 0.35 0 65 0.95 1.25 1.55 1 85 2 15 0.36 0.66 / 0.96 1.26 1.56 1.86 2.16 0.37 0 67 0 97 1 27 1.57 1.87 2.17 0.38 0 68 p 0.98 1.28 1.58 1.88 2 18 0.39 0.69 1 r~ 0.99 1.29 1.59 1.89 2.19 VITRINITE 1NERT1NIT 1^/ LIPTINITE 65- OIL DROPS BITUMEN TV DV Stus Scler Fus Macr ID Mier Spor £>•£/ Cut 0*1 Sub Res i Ld zo- Bituminitc Tclalginitc Lainalginitc Oil cut It No Pop Range R No Read Pop Range R No Read Pop Range It No Read Pop Range R No Read Pop R tinge it No Read Pop Range It No Read Pop Range 0 10 0.40 0.70 1.00 1.30 1.60 1.90 0 11 0.41 0.71 1.01 1.31 1.61 1.91 0 12 0.42 0.72 1.02 1.32 1.62 1.92 0 13 0.43 0.73 1.03 1.33 1.63 1.93 0 14 0.44 0.74 1.04 1.34 L 1.64 1.94 0.15 0.45 0.75 1 05 1.35 1.65 1.95 0.16 0.46 0.76 1.06 1.36 1.66 1.96 0.17 0.47 0.77 1.07 1.37 1.67 1 X 1.97 0.18 0.48 0.78 1.08 1.38 / t 1.68 1.98 0.19 0.49 0.79 1.09 1.39 1.69 1.99 0.20 0.50 0.80 1.10 / 1.40 l.7() 2.00 0 21 0.51 0.81 l.ll 1.41 1.71 2.01 0 22 0.52 0.82 1.12 1.42 1.72 2 02 0 23 0.53 0.83 1.13 1.43 1.73 L ' z 2.03 0 24 0.54 0.84 1.14 1.44 1.74 2.04 0.25 0.55 0.85 1.15 1.45 1.75 2.05 0 26 0.56 0.86 1.16 1.46 1.76 2.06 0 27 0.57 0.87 1.17 1 47 1 1.77 2.07 0 28 0.58 0.88 1.18 1.48 1.78 2.08 0 29 0.59 0.89 1.19 1.49 1.79 2.09 0.30 0.60 0.90 1.20 1.50 1.80 2.10 0 31 0.61 0.91 1.21 1.51 1.8] 2.11 0 32 0.62 0.92 1.22 1.52 1.82 2 12 0 33 0.63 0 93 1.23 1.53 1.83 2.13 0.34 0.64 0.94 1.24 1.54 1.84 2.14 0.35 0.65 0.95 1.25 1.55 1.85 2 15 0 36 0.66 0.96 1.26 1.56 1.86 2 16 0 37 0.67 ( ? W 0.97 1.27 1.57 1 87 2.17 0.38 0.68 0.98 I 28 1.58 1 88 2 18 0.39 0.69 0.99 1.29 1.59 1.89 2 19 VITR INITE INER T1NIT £ L1PTIN TE O 1, DROPS BITUMEN <O-| TV DV Stus Sclcr Fus Macr ID Mier Spor Cut Sub Res Ld Bituniinitc Tclalginitc Lanialginilc Oil cut R No Read fop Range R No Read l’op Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Rc.nl Po! Ra ) 2 e 0.10 0.40 0.70 1.00 1.30 1.60 1.90 0.11 0.41 0.71 1.01 1.31 1.61 1.91 0.12 0.42 0.72 1.02 1.32 1.62 1.92 0.13 0.43 0.73 1.03 1.33 1.63 1.93 0.14 0.44 0.74 1.04 1.34 1.64 1.94 L 0.15 0.45 0.75 1.05 1.35 1.65 1.95 0.16 0.46 0.76 1.06 1.36 1.66 1.96 0.17 0.47 0.77 1.07 1.37 1.67 1.97 0.18 0.48 0.78 1.08 1.38 1.68 1.98 0.19 0.49 0.79 1.09 1.39 1.69 1.99 0.20 0.50 0.80 1.10 1.40 1.70 200 021 0.51 0.81 1.11 1.41 1.71 2.01 0.22 0.52 0.82 1.12 1.42 1.72 2.02 0.23 0.53 0.83 1.13 1.43 1.73 203 0.24 0.54 0.84 1.14 1.44 1.74 2.04 i 0.25 0.55 0.85 1.15 1.45 1.75 2.05 0.26 0.56 0.86 1.16 1.46 1.76 -q: 2.06 — 0.27 0.57 0.87 1.17 1.47 1.77 207 J- 0.28 0.58 0.88 1.18 1.48 1.78 I 2.08 0.29 0.59 0.89 1.19 1.49 1.79 2.09 0.30 0.60 0.90 1.20 1.50 1.80 2.10 031 0.61 0.91 1.21 1.51 1.81 2.11 0.32 0.62 0.92 1.22

1.52 1.82 2 12 1 0.33 0 63 0.93 1.23 1.53 1.83 —J 2.13 0.34 0.64 0.94 1.24 1.54 1.8 4 2.14 0.35 0.65 0.95 1.25 1.55 1.85 2.15 0.36 0.66 0.96 1.26 1.56 1.86 J 2 16 0.37 0.67 0.97 1.27 1.57 1.87 2.17 0.38 0.68 0.98 1.28 1 T 1.58 1.88 2^ X 0.39 0.69 0.99 1.29 1.59 1.89 2 TK 1 VITRINITE INERT1NIT /• LIPTINITE OIL DROPS BITUMEN TV DV Sfus Sclcr 1'llS Macr ID Mier Spor Cut Sub Res l.d Biluminilc Tclalginitc Lamalginitc Oil cut R No Read Pop [latiRc R No Read Pop Ranee R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Rend Pop Range R No Read Pop Range (1.10 * - o 0.40 0.70 1.00 1.30 1.60 1.90 0 11 0.41 0.71 1.01 | 1.31 1.61 1.91 0.12 0.42 0.72 1.02 1.32 1.62 1.92 0.13 0.43 0.73 1.03 t 1.33 1.63 1.93 0.14 0.44 0.74 1.04 1 1.34 1.64 1.94 0.15 045 0.75 1.05 1 1.35 1.65 1 95 0.16 0.46 0.76 1.06 1.36 1.66 1.96 0.17 0.47 0.77 1 07 I \ / 1.37 1.67 1.97 0.18 0.48 0.78 1.08 1.38 1.68 1.98 0.19 0.49 0.79 1 1.09 1.39 1.69 1.99 0.20 0.50 0.80 1.10 1.40 1.70 2.00 021 0.51 0.81 1.11 1.41 1.71 2.01 0.22 0.52 0.82 [ 1.12 1.42 1.72 2.02 0.23 0.53 0.83 1.13 1.43 1.73 2.0.3 0 24 0.54 0.84 1 14 1.44 1 74 2.04 0.25 0.55 0.85 1.15 1 45 1.75 2.05 0 26 0 56 0.86 1.16 1.46 1.76 2.06 0 27 0.57 0.87 1.17 1.47 1.77 2.07 0 28 0.58 0.88 I 1.18 1.48 1.78 2.08 029 0.59 0.89 1.19 1.49 1.79 2.09 0.30 0.60 0.90 1.20 1.50 1.80 2.10 0.31 0.61 0.91 1.21 1.51 1.81 2.11 0.32 0.62 0.92 1.22 1.52 1.82 2 12 0.33 0.63 0.93 1 1.23 1.53 1.83 2.13 0.34 0.64 0.94 1 1.24 1.54 1.84 2.14 0.35 0.65 0.95 1 1.25 1.55 1.85 2.15 0.36 0.66 0.96 1.26 1.56 1.86 2.16 0.37 0.67 0.97 1.27 1.57 1.87 2 17 0.38 0.68 0.98 1.28 1.58 1.88 2.18 0.39 0.69 0.99 1.29 1.59 1.89 2.19 VITR1 NITI; INER TiNIT -v J. LIPTIN TE 1 Z Oil. DROPS BITUMEN TV DV Stus Sdcr Fus Macr ID Mier S|x>r Cut 7 Sub Res ^7 Id Bilumiiutc Tclalginilc Lainalginilc Oil cut Sample Number Well Name. A^.S.P.X iC.-J Depth 'Yl... Sample type.... SPP. R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range 0.10 0.40 0.70 1.00 / 1.30 1.60 1.90 Oil 0.41 0.71 1.01 4 1.31 1.61 1.91 0.12 0.42 0.72 1.02 1.32 1.62 1.92 0.13 0.43 0.73 1.03 I 1.33 ! .63 1.93 0.14 0.44 0.74 1.04 2 1.34 1.64 1.94 0.15 0.45 0.75 1.05 1 1.35 1.65 1.95 0.16 0.46 0.76 1.06 1.36 1.66 1.96 0.17 0.47 0.77 1.07 1.37 1.67 1.97 0.18 0.48 0.78 1.08 1.38 1.68 1.98 0 19 0.49 0.79 1.09 1 1.39 1.69 1.99 0.20 0 50 0.80 1.10 2- 1.40 1.70 2 00 0.21 0.51 0.81 1.11 1.41 1.71 2.01 0.22 0 52 0.82 1.12 1.42 1.72 2 02 0.23 0.53 0.83 1.13 1 1.43 1.73 2.03 0.24 0.54 0.84 1.14 1 1.44 1.74 2.04 0.25 0.55 0.85 1.15 A 1.45 1.75 2.05 0.26 0.56 0.86 1.16 1.46 1.76 2.06 0.27 0.57 0.87 1.17 1.47 1.77 2.07 0.28 0.58 0.88 1.18 1.48 1.78 2.08 0.29 0.59 0.89 1 r 1.19 1.49 1.79 2.09 0.30 0.60 0.90 1 1.20 1.50 1.80 2.10 0.31 0.61 0.91 1 1.21 1.51 1.81 2.11 0.32 0.62 0.92 1.22 1.52 1.82 2.12 0.33 0.63 0.93 1 1.23 1.53 1.83 2.13 0.34 0.64 0.94 1.24 1.54 1.84 2 14 0.35 0.65 0.95 1 1.25 1.55 1.85 2 15 0.36 0.66 0.96 2- 1.26 1.56 1.86 2 16 0.37 0.67 0.97 I 1.27 1.57 ! .87 2 17 0.38 0.68 0.98 1 1.28 1 58 1 88 2.18 0.39 0.69 0.99 1 1.29 1.59 1.89 2.19 VITRINITE O-! / 1NERTINIT LIPTINITE Z Oil. DROPS BITUMEN ■tv DV Shis Sclcr l’llS Macr ID Mier Spor ZP'/ Cut Sub Res l.d Bituininitc Tclalginitc l.iiniiilgiiulc Oil cut 0,10 0.11 OJ2_ 0.13 0 14 0.15 0.16 0.17 0j£ 049 0 20 0.21 0.22 0 23 024 025 0,26 0 27 0 28 0.29 0.30 0.31 0.32 0.33 0.34 0.35 036 0.37 0.38 0.39 0,40 0.41 0.42 0.43 0,44 0.45 046 0.47 6^i«~ 0,49 050 0.51 0,52 0.53 0,54 0.55 0.56 0.57 0.58 0.59 0.60 0.61 0.62 0.63 0.64 0,65 0.66 0.67 068 0.69 VITRINITE 7. Sclcr BITUMEN Oil. DROPS Latnalginilc Telalgiiiitc Bihiininite lip riNirii 7. R 0,70 0.71 0.72 0.73 0.74 0.75 0.76 0.77 0.78 039 0,80 0,81 0.82 0.83 0,84 0.85 0.86 0.87 0.88 0.89 0.90 0,91 0.92 0.93 0.94 0.95 0.96 097 0.98 0.99 1,66 1.67 1.68 1.69 INERTINIT R No Read Pop Range R No Read Pop Range R

No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range 0.10 0.40 0.70 1 1.00 1.30 1.60 1.90 0.11 0.41 0.71 1.01 1.31 1.61 1.91 0.12 0.42 0.72 1.02 1.32 1.62 1.92 0.13 0.43 0.73 1.03 1.33 1.63 1.93 0 14 0.44 0.74 ~J7T 1.04 1.34 1.64 1.94 0.15 0.45 0.75 1.05 1.35 1.65 1.95 0.16 0.46 0.76 1.06 1.36 1.66 1.96 0.17 0.47 0.77 1.07 1.37 1,67 1.97 0.18 0.48 0.78 t.08 1.38 1.68 1.98 0.19 0.49 0.79 1 1.09 1.39 1.69 1.99 0.20 0.50 0.80 1.10 1.40 1.70 2 00 0.21 0.51 0.81 l.ll 1 / 1.41 1.71 2.01 0.22 0.52 0.82 1.12 1.42 1.72 2.02 0.23 0.53 0.83 1.13 1.43 1.73 2.03 0.24 0.54 0.84 1.14 1.44 1 1.74 2.04 0.25 0.55 0.85 1.15 1.45 1.75 2.05 0.26 0.56 0.86 1.16 1,46 1 1.76 2.06 0.27 0 57 0.87 1.17 1.47 I 1.77 2.07 0.28 0.58 1 / 0.88 1.18 1.48 1 1.78 2.08 0.29 0.59 0.89 1.19 1 49 1 1.79 2 09 0.30 0 60 0.90 1.20 1.50 1-4- 1.80 2.10 0 31 0.61 0.91 1.21 1.51 1.81 2.11 0.32 0.62 0.92 1.22 1.52 ±&L I 82 2.12 0.33 0,63 0.93 1.23 1.53 X 1.83 2 13 0.34 0.64 TJpr 0.94 1.24 1.54 2 1.84 2.14 0.35 0.65 0.95 1.25 1.55 1 1.85 2.15 0.36 0.66 0.96 1.26 1.56 1.86 2.16 0 .37 0.67 0.97 1.27 1.57 4 1.87 2.17 0.38 0.68 0.98 1 28 1.58 1.88 2 18 0.39 0.69 0.99 1.29 1.59 r —i 1.89 2.19 VITRINITE 40-/ '! Sckr bus Macr ID LIPT1NH1 I .<i tnalginilc Iclalginilc ■INERTINIT Bituniinilc Sample Number y.373.2... Well Name Aft'S Pj bActyesbi C...-I Depth. .. 3-.kS3.r9 Sample, type . . // .. II No Rend Pop Ranee R No Read Pop Range i< No ■Rend Pop Range II No Read Pop Range R No Read Pop Range 11 No Read Pop Range 11 No Read Pop Range (I |0 - ,a..... 0.40 0.70 1.00 1 30 1.60 2 1.90 0.1 1 0.41 0.71 1.01 1.31 1.61 1.91 0.12 0.42 0.72 1.02 1.32 1.62 1.92 0.13 0.43 0.73 1.03 1.33 1.63 1.93 0.14 0.44 0.74 1 04 1.34 i 1.64 L X 1.94 0 15 0.45 0.75 1.05 1.35 1.65 1.95 0 16 0.46 0.76 1.06 1.36 1.66 1 1.96 0.17 0.47 0.77 1.07 1.37 1.67 1.97 0.18 0.48 0.78 1.08 1.38 1.68 1.98 0.19 0.49 0.79 1.09 1.39 1.69 1.99 0.20 0.50 0.80 1.10 1 40 1.70 2 00 0.21 0.51 0.81 1.11 1.41 1.71 -J, 2.01 0.22 0.52 0.82 1.12 1.42 1.72 1 2.02 0.23 0.53 0.83 1.13 1.43 1.73 2.03 0.24 0.54 0.84 1.14 1.44 1 1.74 2.0-1 L^ 0.25 0.55 0.85 1 15 1.45 1 1.75 2.05 0 26 0.56 0.86 1.16 1.46 1.76 2.06 0.27 0.57 0.87 1)7 1.47 1.77 I 2.07 0.28 0.58 0.88 1.18 1.48 1.78 2.08 0.29 0.59 0.89 1.19 1.49 1.79 2.09 0.30 0.60 0.90 1.20 1.50 1.80 2.10 0 31 0.61 0.91 1.21 1.51 1 81 2.II 0.32 0.62 0.92 1.22 1.52 1.82 I 2 12 1 X ( 033 0.63 0.93 1.23 1.53 1.83 2.13 0.34 0.64 0.94 1.24 1.54 1.84 2.I4 0.35 065 0.95 1.25 1.55 1 85 2.15 0.36 0.66 0.96 1.26 I 1.56 1 1.86 2)6 0.37 0.67 0.97 1.27 1.57 1.87 t 2.17 0.38 0.68 0.98 1.28 i 1.58 1.88 2.18 0.39 0.69 0.99 1.29 1.59 1.89 2.19 V1TR IN1TE INER T1N1T E LIPTIN TE OIL DROPS BITUMEN l‘OY rv DV Slits Sclcr l’us Macr ID Mier Spur £C>- 1 Cut Sub Res l.d Bit uminile Telalginilc Sample Number 3. .?<?>... Well Name...A.&SOj bA^eStSc -I Dcplh.....?4.f , .. t » Sample type....S^S... n No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Rend Pop Range R No Read Pop Range R No Read Pop 0 10 0.40 0.70 1.00 1.30 1.60 1.90 0 1 1 0.41 0.71 1.01 1.31 1.61 1.91 0.12 0.42 0.72 1.02 1.32 1.62 1.92 0.13 0.43 0.73 1.03 1.33 1 1.63 1.93 0.14 0.44 0.74 1.04 1.34 1.64 1.94 0.15 0.45 0.75 1.05 1.35 1 1.65 1.95 0.16 0.46 0.76 1.06 1.36 2 1.66 1.96 0.17 0.47 0.77 IO7 1.37 Q 1.67 1.97 0.18 0.48 0.78 1.08 1.38 1 1.68 1.98 0.19 0.49 0.79 1.09 1.39 1.69 1.99 0.20 0.50 0.80 1.10 1.40 1.70 2 00 0.21 0.51 0.81 1.11 141 2 1.71 2.01 0 22 0 52 0.82 1.12 1.42 3 1.72 2.02 0 23 0.53 0.83 1.13 1.43 1.73 2.03 0 24 0.54 0.84 1.14 1.44 1.74 204 0.25 0.55 0.85 1.15 1.45 1.75 2.05 0 26 0.56 0.86 1.16 1.46 1.76 206 0 27 0.57 0.87 1.17 1.47 1 Fgv 1.77 2 07 0 28 0.58 0.88 1.18 1.48 s 1.78 208 0 29 0.59 0.89 1.19 1.49 1.79 2.09 0.30 0.60 0.90 1.20 1.50 J 1.80 2.10 0.31 0.61 0.9) 1.21 1.51 1.81 2.11 0 32 0.62 0.92 1.22 1.52 1 1.82 2.12 0.33 0.63 0.93 1.23 1.53 1.83 2.13 0 34 0.64

0.94 1.24 1.54 2 1.84 2.14 0.35 0.65 0.95 1.25 1.55 1 1.85 2.15 0.36 0.66 0.96 1.26 1.56 1.86 2.16 0.37 0.67 0.97 1.27 1.57 1.87 2.17 0.38 0.68 0.98 1.28 1.58 1 88 2.18 0.39 0.69 0.99 1.29 1.59 i 1.89 2.19 i iirrt VITRINITE INERTINIT LIPTINITE • / 4 ^7- TV DV Slits Sclcr Fus Macr |1) Mier Spur Cut Sub Res Id Hilnniinile Tclalginitc Lnmnlginitc R No Read Pop Ranee R No Read Pop Ranee R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Rend Pop Range R No Read Pop Range 1 00 1.30 1.60 1.90 2.20 2.50 2.80 1 01 1. .31 1.61 1.91 2.21 2.51 2.81 1 02 1.32 1.62 1.92 2.22 2.52 2.82 / 1 03 1.33 1.63 1.93 2.23 2.53 2.83 1 04 1.34 1.64 1.94 2.24 2.54 2.84 1.05 1.35 1.65 1.95 2.25 2.55 2.85 1.06 1.36 1.66 1.96 2.26 2.56 2.86 I 07 1.37 1.67 1.97 2.27 2.57 2.87 1 08 1.38 1.68 1.98 2 28 1 2.58 2.88 1.09 1.39 1 69 1.99 2.29 2.59 2.89 1.10 1.40 2- 1.70 2.00 2.30 J 2.50 2.90 1 11 1.41 I 1.71 2.01 2.31 2.61 2.91 1 12 1.42 1.72 2.02 2.32 2.62 2.92 1 13 1.43 1.73 2 03 2 33 2.63 2.93 1 14 1.44 1.74 ~T / k 2.04 2.34 2.64 2.94 — P 1.15 1.45 1.75 2.05 2.35 1?,- 2.65 2.95 I 16 1.46 1.76 2 06 l 2.36 2.66 2.96 1.17 1.47 1.77 2 07 2.37 2.67 1 2.97 1 18 1.48 1.78 2 08 2.38 2.68 2.98. 1.19 1.49 1.79 2.09 2 39 J 2 69 2.99 1.20 1.50 1.80 1 2.10 2 40 2.70 3.00 1 21 1.51 1.81 2.11 2.11 2.71 3.01 1 22 1.52 1.82 2 12 2.42 2.72 3.02 J 1 23 1.53 1.83 2.13 2.43 2.73 3.03 L / 1.24 1.54 1.84 2.14 2.44 2.74 3.04 1.25 1.55 1.85 2.15 2.45 2.75 3 05 1.26 1.56 1.86 2.16 / 2.46 2.76 3.06 1.27 / 1.57 1.87 2.17 2.47 2.77 3 07 1.28 -r~ 1.58 1 x 1.88 2.18 2.48 2.78 308 1.29 1.59 1.89 2.19 2.49 2.79 3.09 VITR1F 41TE < o- 1 INERT1 NITE 3 7* LIPTINITE OIL DROPS | BITUMEN TV DV Sf Scl F Ma ID Mi Sp Cu Su Res Ld Bilmninile Telalginite Lamalginite Oil cut Sample Number. ..y.5?..?S Well Name... A&S Oj NAftjest!.<?r I Depth... *?3 Sample Type...Sk?.£.....7. Dale../*?../.<?.B./. 199 9- Mfy R No Read I’op Range R No Read Pop Ranee R No Rear! Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range I 00 1.30 I 1.60 1.90 2.20 2.50 2.80 1 01 1.31 1 1.61 1.91 2.21 2.51 2.81 1 02 1.32 1 1.62 1.92 2.22 2.52 2.82 1 01 1.33 I 1.63 1.91 2.23 2.53 2.83 1 04 1.34 a- 1.64 1.94 2.24 2.54 2.84 1.05 1.35 1.65 1.95 2.25 2.55 2.85 1 06 1.36 1.66 1.96 2 26 2.56 2.86 I 07 1.37 I 1.67 1.97 2.27 2.57 2.87 1 08 1.38 1.68 1.98 2.28 2.58 2.88 1.09 1.39 1 1.69 1.99 2.29 2.59 2.89 1.10 1.40 a- 1.70 2 00 2.30 2.50 2.90 1.11 1.41 1.71 2.01 2.31 2.61 2.91 1 12 1.42 1.72 2 02 2.32 2.62 2.92 1 11 1.43 1.73 2.03 2.33 2.63 2.93 1 14 1.44 1 1.74 2.04 2.34 2.64 2.94 1.15 1.45 i 1.75 2.05 2.35 265 2.95 1 16 1.46 1.76 2.06 2.36 2.66 2.96 1.17 1.47 (AX 1.77 207 2..17 2.67 2.97 JJ8 1.48 1.78 2.08 2.38 2.68 2.98. 1.19 1.49 1 1.79 2.09 2 39 2.69 2.99 1.20 1 / 1.50 —i 1.80 2.10 2 40 2.70 3.00 1.21 2- 1.51 1.81 2.11 2.41 2.71 .3(11 1 22 1.52 1.82 2.12 2.42 2.72 3.02 1.23 1.53 3- 1.83 2.1.1 2.43 2.73 3 03 1 24 1 1.54 1.84 2.14 2.44 2.74 3.04 i.25 1.55 1.85 2.15 2.45 275 3.05 1.26 | 1.56 1 \ ( 1.86 2.16 2.46 2.76 3.06 1.27 1 1.57 lj 1.87 2.17 2.47 2.77 3.07 1.28 1.58 1.88 2.18 2.48 2.78 308 1.29 2 1.59 1.89 2.19 2.49 2.79 309 VITRINITE ^9- 1 INERTINITE LIPTINITE OIL DROPS BITUMEN TV DV Sf Scl I’ Ma ID Mi Sp Cu Sti Res I.d Biluminilc Telalginilc l^nnalginile Oil cnl Sample Tyjjc....^.^-.^. Dale .'/L/.PAl 199. V Sample Number.^tl^.fe... Well Name....A.6SP. j iC-J R No Pop Range R No Read Pop Ranee R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range 1 00 1.30 1.60 1.90 2.20 2.50 2.80 1 01 1.31 1.61 1.91 1 2.21 2.51 / 2.81 1.02 1.32 1.62 1.92 2.22 2.52 2.82 1.0.3 1.33 1.6.3 1.93 2.23 2.53 2 83 104 1.34 1.64 1.94 2 24 2.54 2.84 1.05 1.35 1.65 1 95 2.25 2.55 2.85 1.06 1.36 1.66 1.96 2.26 2.56 2.86 1.07 1.37 1.67 1.97 2.27 2.57 2.87 XT 1.08 1.38 1.68 1.98 2.28 2.58 2.88 1.09 1.39 1.69 1.99 2.29 2.59 2.89 1.10 1.40 1.70 2.00 2.30 2.50 2.90 1.11 1.41 I 1.71 2 01 2.31 2.61

2.91 1.12 1.42 1.72 2 (12 2 32 2.62 2.92 L 1.13 1.43 1.73 2.03 2.33 2.63 2.93 1.14 1.44 1.74 204 2.34 2.64 2 91 1.15 1.45 1.75 205 2.35 265 2.95 1.16 1.46 1.76 206 2.36 2.66 2.96 1.17 1.47 1.77 1 I 2.07 2.37 267 2.97 1.18 1.48 1.78 2.(18 2.38 2.68 2.98. 1.19 1.49 1.79 2.09 2.39 2.69 2.99 1.20 1.50 1.80 2.10 2 40 2.70 3.00 1.21 1 \ 1.51 1.81 2.11 2.41 2.71 301 1.22 1.52 1.82 2.12 2.42 2.72 302 1.23 1.53 1.83 2.13 2.43 2.73 303 1.24 1.54 1.84 1 2.14 2.44 1 2.74 304 1.25 1.55 1.85 1 2.15 2.45 2.75 3.05 1.26 cr\f 1.56 1.86 2.16 2.46 2.76 3.06 1.27 1.57 1.87 2.17 2.47 2.77 J— 3.07 1.28 1.58 1.88 2.18 2.48 2.78 3.08 1.29 1.59 1.89 2.19 2.49 2.79 3.09 VITRINITE , <C>' INERTINITE V0 /. IJPTINIT I OIL BITUMEN DROPS | TV DV Sf Scl F Ma ID Mi Sp Cu Su Res Ld Biluniinite Telalginitc Lainalginite Oil cut Sample Number....VX?Well Name...A^> Depth.....^.kS.m.. SampleType.S.WDate./?/.<? 8 I » 7 R No Read Pop Range R No Read Pop Range R No Read Pop Runge R No Read Pop Range R No Read Pop Range R No Read Pop Rid R No Read Pop Range 1 00 1.30 1.60 1.90 i 2.20 2.50 2 80 1 01 1.31 1.61 1 91 i 2.21 2,51 2.81 1 02 1.32 1.62 1.92 I 2.22 2.52 2.82 1 03 1.33 1.63 1.93 2.23 2.53 2.83 I 04 1.34 1.64 1.94 2.24 z 2.54 2.84 1.05 1.35 1.65 1.95 2.25 2.55 2.85 1 06 1.36 1.66 1.96 2.26 2.56 2.86 1.07 1.37 1.67 1.97 2.27 2.57 2.87 1.08 1.38 1.68 1.98 I 2.28 2.58 2.88 1.09 1.39 1.69 1.99 7 2.29 2.59 2.89 1.10 1.40 1.70 2.00 ft 2.30 2.50 2.90 1 11 1.41 1.71 2.01 2.31 2.61 2.91 1 12 1 42 1.72 2 02 2 32 J 2.62 2.92 1 13 1.43 1.73 / /I 2.03 2.33 2,63 2.93 1.14 1.44 1 * 1/ 1.74 2.04 2 34 2.64 2.94 1.15 1.45 1.75 2.05 2 35 2.65 2.95 1.16 1.46 1.76 2 06 7 2 36 2,66 2.96 1.17 1.47 1.77 / 2 07 2.37 2.67 2.97 1.18 1.48 1.78 2.08 2.38 I 2.68 2.98. 1.19 1.49 1.79 2.09 2.39 2.69 2.99 1.20 1.50 1.80 2.10 2 40 2.70 —A 3.00 1.21 1.51 1.81 2.11 2.11 2.71 3.01 1.22 1.52 1.82 t 2.12 2.42 2.72 3 02 1.23 1.53 1.83 2.13 2.43 2.73 3 03 1.24 1.54 1.84 2.14 2.44 2.74 304 1.25 1.55 1.85 2.15 k 2.45 2.75 3.05 1.26 1.56 1.86 2.16 2.46 2.76 3.06 1.27 1.57 1.87 2.17 2.47 2.77 3.07 1.28 1.58 1.88 2 18 2.48 2.78 3.08 1.29 1.59 1.89 2.19 2.49 2.79 3.09 VITRINITE INERTINITE 2 LIPTINITE OIL BITUMEN DROPS | TV DV ST Scl F Ma ID Mi Sp Cu Su Res Ld Bitmninile Telalginile Lamalginite Oil cut Dale./#../t^../.199.^ IXrplli .... ZXSf Sample Tyj>e. Sample Number. Well Name...AZ/#. Q 2 R No Read Pop Range R No Rend Pop Range R No Rend Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range (). 10 0.40 0.70 1 V 1.00 1.30 1.60 1.90 0.11 0.41 0.71 1.01 1.31 1 61 1.91 0.12 042 0.72 1.02 1.32 1.62 1.92 0.13 043 0.73 1.03 1.33 1.63 1.93 0.14 0.44 0.74 1.04 1.34 1.64 1.94 0.15 0.45 0.75 1.05 1.35 1.65 1.95 0 16 046 0.76 106 1.36 1.66 1.96 0.17 0.47 0.77 1.07 1.37 1.67 1.97 0.18 0.48 0.78 1.08 1.38 1.68 1.98 0 19 0.49 0.79 1.09 1.39 1.69 1.99 0.20 0.50 0.80 1.10 1.40 1.70 2.00 0.21 0.51 0.81 1.11 1.41 1.71 2.01 0.22 0.52 0.82 1.12 1.42 1.72 2.02 0.23 0.53 0.83 1.13 1.43 1.73 2.03 0.2-1 0.54 0.84 1.14 1.44 1.74 2.04 0.25 0.55 0.85 1.15 1.45 1.75 2.05 026 0.56 0.86 1.16 1.46 1 76 2.06 0.27 0.57 0.87 1.17 1.47 1.77 2.07 028 0.58 0.88 1.18 1.48 1.78 2.08 0.29 0.59 0.89 1.19 1.49 1.79 2.09 0.30 0.60 0.90 1.20 1.50 1.80 2.10 0.31 0.61 0.91 121 1.51 1.81 2 11 0.32 0.62 0.92 1.22 1 52 1.82 2 12 0.33 0.63 0.93 1.23 1.53 1.83 2.13 0.34 0.64 0.94 1.24 I 54 1.84 J T. 2.14 0.35 0.65 0.95 1.25 1.55 1 85 2 15 0.36 0,66 0.96 1.26 1.56 1.86 2.16 0.37 0.67 0.97 1.27 1.57 1.87 2.17 0.38 0.68 0.98 1.28 1.58 1 88 2.18 0.39 0.69 0.99 1.29 1.59 1.89 2.19 VITRINITE INERTINITE /• LIPl'IN TE OIL DROPS IM TUMEN TV DV Sfus Sclcr Fus Macr ID Mier Spur Cut Sub Res 1.<J Bituniiuitc Telalginilc l.amalginilc Oil cut Sample Number....Z..f? Z.Z4 Well Name Depth...2.. Sample type, R No Read Pop Range 1< No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read 1 00 1.30 1.60 1.90 2.20 101 1.31 1.61 1.91 2.21

1.02 1.32 1.62 1.92 2.22 1.03 1.33 1.63 1.93 / 2.23 1 04 1.34 1.64 1.94 2.24 1 (IS 1.35 1.65 1.95 2 25 1.06 1.36 1.66 1.96 2.26 1.07 1.37 1.67 1.97 2.27 1.08 1.38 1.68 1.98 2.28 1.09 1.39 1.69 1.99 2.29 1.10 1.40 1.70 2.00 2.30 111 1.41 1.71 2.01 2.31 1.12 1.42 1.72 2.02 2 32 1.13 1.43 1.73 2.03 2.33 1.14 1.44 1.74 2.04 2.34 1.15 1.45 1.75 2.05 2.35 1.16 / da 1.46 1.76 1 ~1 r 2.06 2.36 1.17 1.47 1.77 2 07 -J. 2 37 1.18 1.48 1.78 2.08 2.38 1.19 1.49 1.79 2.09 2 39 1.20 1.50 1.80 2.10 2 40 1.21 1.51 1.81 2.11 2.41 1.22 1.52 1.82 2 12 2 42 1.23 1.53 1.83 Is 2.1.3 2.43 1 24 1.54 1.84 2.14 241 1.25 1.55 1.85 2.15 2.45 1.26 1.56 1.86 2.16 2.46 1.27 1.57 1.87 2.17 2.47 1.28 1.58 1.88 2.18 2.48 1.29 1.59 1.89 2.19 2.49 Pop Range 2.52 2.53 2.54 2.55 2.56 2.57 2.58 2 59 2.50 2.61 2.62 2.63 2.64 2.65 2.66 2.67 2.68 2.69 2.70 2.71 2.72 2.73 2.74 2.75 2.76 2.77 2.78 2.79 Pop Range 2.80 2.81 2.82 2 83 2 8 1 2.85 2.86 2.87 2.88 2 89 2.90 2.91 2 92 293 2 94 2 95 2.96 2.97 2.98. 99 no 3.06 3.07 3.08 3.(0 VITRINITE INERTINNE LIPTINITE OIL BITUMEN DROPS 1 TV DV Sf Scl F Mu ID Mi Sp Cu Su Res Ld Bilnminite Telalginite Lamalginite Oil cut Sample Nmr.lxa . V 774.P Well Na.ne .AS.SO y 1 M ,U. ..4.6 P.l Sample Type...5H.C-?r.... I >.U. : " . R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range R No Read Pop Range / / s 1.30 1.60 1.90 2.20 2 50 2.80 1.01 —r 1.31 1.61 1.9! 2.21 2.51 2.81 102 1.32 1.62 1.92 2.22 2.52 2.82 103 1.33 1.63 1.93 2.23 2.53 2.83 104 1.34 1.64 1.94 2 24 2.54 2.84 1.05 1.35 1.65 1.95 2.25 2.55 2.85 1.06 1.36 1.66 1.96 2.26 2,56 2.86 J 107 1.37 1.67 1.97 2.27 2.57 2.87 1.08 1.38 1.68 1 1 1.98 2.28 2.58 2.88 1.09 1.39 1.69 1.99 2 29 2.59 2.89 1.10 1.40 1.70 2.00 2.30 2.50 2.90 1.11 1.41 1 ?/Zv 1.71 2.01 2.31 2.61 2.91 1.12 1.42 ? CP fir) 1.72 2.02 2 32 2.62 2.92 1.13 1.43 1.73 2.03 2.33 2.63 2 93 1.14 1.44 1.74 204 2 34 2.64 2.94 1.15 1.45 1.75 2.05 2.35 2.65 2.95 1.16 1.46 1.76 2 06 2.36 2.66 2.96 1.17 1.47 1.77 2.07 2.37 2.67 2.97 1.18 1.48 1.78 208 2.38 2 68 2.98. 1.19 1.49 1.79 2.09 2 39 2.69 2.99 1.20 1.50 1.80 2.10 2 40 2.70 3.00 1.21 1.51 1.81 2.11 2.41 2.71 301 1.22 1 r~ 1.52 1.82 2.12 2.42 2.72 3.02 1.23 1.53 1.83 2.13 2.43 2.73 3.03 1.24 1.54 1.84 2.14 2.44 2.74 304 1.25 1.55 1.85 2.15 2 45 2 75 305 1.26 1.56 1.86 2.16 2.46 2.76 3.06 1.27 1.57 1.87 i 2.17 2.47 2.77 3.07 1.28 1.58 1.88 2.18 2.48 1 2.78 ’W 1 1.29 1.59 1.89 2.19 2.49 2.79 3£L 1 f VITRINITE INERTINITE ,•>'! 7. LIPTINITE OIL DROPS BITUMEN TV DV Sf Scl F Ma ID Mi Sp Cu Su Res Ld Biluminite Telalginite Lamalginite Oil cut 2:6.5. Sample Typtf....SH.■£.7..f. Sample Nmnbcr...y.^W Well Name...AiSl.S.Q

APPENDIX 10 PALYNOLOGY REPORT Palynological Report on swc samples (2610 -2023 m) from MIM Majestic 1 c. B. FOSTER Australian Geological Survey Organisation SUMMARY Of 19 swc samples submitted for palynological analysis, only 9. spanning 2589 to 2032 m are productive. Yields of plant microfossils are generally moderate to very low and preservation is mostly poor, making precise zonal assignment difficult. Assemblages range in age from: Early Permian (2589. 2524 m). possible latest Permian (2487 m), Early to Middle? Triassic (2262-2160 m). and Early to mid Jurassic (2098-2032 m). Details are given in following Table. swc depth (m) contamination index preparation # (MFR) palynological yield palynological preservation biozone age 1 2653 unsuitable no data no data no data no data no data 2 2626 unsuitable no data no data no data no data no data 3 2610 3 10417 barren no data no data no data 4 2589 4 10418 very low very poor not older than APP 1.2 Early Permian 5 2548 3 10419 bamen no data no data no data 6 2531.5 3 10420 barren no data no data no data 7 2524 4 10421 very low very poor APP 2 - APP 5 Early Permian 9 2501 4 10423 barren no data no data no data 10 2494 3 10424 barren no data no data no data 11 2487 2 10425 very low very poor ?oldest APP 6 ’Late Permian 12 2302 4 10426 barren no data no data no data 13 2281.5 unsuitable no data no data no data no data no data 14 2262 3 10428 very low poor Triassic indet Early? Triassic 15 2230 3 10429 abundant very poor Triassic indet Triassic 16 2160 3 10430 low fair to poor ?APT 3 (see text) Middle Triassic 17 2113 3 10431 barren no data no data no data 18 2098 3 10432 very low very poor indet Jurassic 20 2070 3 10434 moderate poor/fair C. turbatus Early-mid Jurassic 21 2032 2 10435 very low poor/fair C. turbatus Early-mid Jurassic Contamination index refers to the swc sample before processing: 4. no visible contamination; i. grossly contaminated and/or fractured. This index affects the reliability of the interpretation of the assemblage data. • Thermal alteration index indicated by spore-pollen colour ranges from 5+ (condensate window) at 2589-2487 m, to 3. 4 (early to peak oil generation) from 2262 to 2032 m. The colour indices are based on AMOCO standards. DETAILS OF ASSEMBLAGES The Permian and Triassic assemblages are either very low yielding or badly preserved, or both. Because there are very few recognisable specimens in the assemblages individual taxa are listed for each sample, rather than presented in the more usual Checklist range-chart format. Although the Jurassic samples are generally better yielding and preserved, the assemblage data is similarly presented. Table 1 gives details of yields and preservation of the plant microfossils, and the contamination index of the swc sample: it should be read in conjunction with the following notes on individual assemblages. Spore-pollen nomenclature is that of Foster (1979). Dolby & Balme (1976) and Burger (1995). The zonal schemes referred to are those of Price (in Draper & others 1990) and Helbv & others (1987). PERMIAN - 2589 to ?2487 m 2589 m - swc 4 Abundant cuticle and woody debris. Very low yield, with seven specimens recorded, and all are fem spores: Apiculatisporis cornutus (Balme &. Hennelly) Hoeg & Bose 1960 most common: Microbaculispora tentula Tiwari 1965. and cf. Horriditriletes ramosus (Balme & Hennelly) Bharadwaj & Salujha 1964. Although very low yielding, the assemblage is not older than APP 1.2. 2524 m - swc 7 Very low yield, mostly pollen recorded: Tiwariasporis simplex (Tiwari) Maheshwari & Kar 1967. Scheuringipollenites ovatus (Balme & Hennelly) Foster 1975. Striatopodocarpites fusus (Balme & Hennelly) Potonie 1958. S. cancellatus (Balme

& Henneily) Hart 1963. Fem spores are rarer and include: ? Microbaculispora tentula and Granulatisporites sp. cf. G. micronodosus Balme & Hennelly 1956. No index species are present but the record of T. simplex suggests an age range of APP 2 to APP 5. 2487 m - swc 11 Sample mud invaded, reliability low. Evidence of Jurassic contamination with y Microcachryidites sp. and Polycingulatisporites sp.. and possible Triassic contamination indicated by Falcisporites australis (de Jersey) Stevens 1981. Other key taxa which range from the latest Permian to the Triassic include: Triplexisporites playfordii (de Jersey & Hamilton) Foster 1979, and Thymospora ispsviciensis (de Jersey) Jain 1968. The assemblage is considered, tentatively, to be of latest Permian age, based on the co occurrence of T. playfordii, Weylandites lucifer (Bharadwaj & Salujha) Foster 1975. and a probable fungal cyst assigned to Chordecystia Foster 1979. Associated Permian forms are: cf. H. ramosus. Leiotriletes directus Balme & Hennelly 1956. Gondisporites sp.. Striatopodocarpites sp., and Vitreisporites signatus Leschik 1956. If in situ, the assemblage belongs to APP 6. According to Powis (1989), assemblages from the base of the Arrabury Formation belong to this zone (APP 6). The Arrabury Formation continues into the Early Triassic (APT 2, Powis 1989). TRIASSIC - 2262 to 2160 m 2262 m - swc 14; 2230 m - swc 15 Abundant cuticular fragments and pollen of Falcisporites australis- type. Very few spores, fragments oflConipollenites sp., lAratrisporites sp. and ?Verrucosisporites sp. The assemblages are Triassic in age. 2160 m - swc 16 As above, with pollen assigned to F. australis, Lueckisporites sp 651 (of Helby), Striatopodocarpites sp., Chordasporites sp., ?cf. Marsupipollenites/ Duplicisporites sp. and probable Aulisporites astigmosus (Leschik) Klaus 1960. The occurrence of L. sp 651 and ?A. astigmosus suggests that the palynoflora is not older than Middle Triassic, and allows possible assignment to the S. quadrifidus Zone of Helby & others (1987), although the present assemblage lacks the eponymous species. Burger (1992) indicated a probable correlation between palynofloras of the S. quadrifidus Zone and those assigned to the upper subunits of Price's APT 3 (3.3 and 3.4). The ranges of the two species used here are determined from studies in northern and western Australia (Helby & others 1987), they are recorded more rarely in eastern Australian assemblages. Powis (1989) shows that palynofloras from the Gilpeppee Member of the Tinchoo Formation span APT 3.3 to APT 3.4* JURASSIC 2098 - 2032 m-swc 18, 20,21 Taxa list and additional comments by Dr Dennis Burger (AGSO) The Jurassic assemblages are characterised by abundant organic debris. The assemblages from 2098 m and 2032 m contain few specifically identifiable spores or pollen, but poorly preserved Retitriletes sp. is present at 2098 m. The rare spores and pollen from 2032 m include Klukisporites? sp., CoroUina sp.. and Callialasporites lurbatus. The remaining sample at 2070 m yielded a more diverse palynoflora. and a detailed description is given here by Burger. Pollen recovered include: Callialasporites turbatus (common), C. dampieri (common), C. trilobatus’, CoroUina sp. (rare). Araucariacites ?australis. A.ftssus: Alisporites lowoodensis. A. similis. Podocarpites ellipticus. Vitreisporites signatus. Spores included: Baculatisporites comaumensis (common). Osmundacidites wellmanii. Cyathidites minor, Gleicheniidites circinidites. Cardargasporites ?reticulatus. Trilobosporites antiquus. Retitriletes austroclavatidites. R. clavatoides. R. rosewoodensis. R. semimurus. R. ? tenuis; Annulispora folliculosa, and Stereisporites antiquasporites. Nomenclature follows that of Burger

(1995). The assemblage from 2070 m is species restricted and. in the absence of other index species, is assigned to the C. turbatus Zone of Helby & others (1987) and is of late Toarcian to Aalenian (late Early to early Middle Jurassic) age. The apparent absence of any acritarchs, indicators of some degree of salinity at the site of deposition, suggests correlation with palynofloras from the basal Hutton Sandstone. REFERENCES Burger, D., 1992, Triassic palynostratigraphy in eastern Australia, a review. BMR Record 1992/8, 12-16. Burger. D., 1995, Mesozoic palynomorphs from the Northwest Shelf, offshore Western Australia. Palynology (in press). Dolby, J. H. & Balme. B.E.. 1976. Triassic palynology of the Carnarvon basin. Western Australia. Review of Palaeobotany and Palynology, 22. 105-168. Draper, J.J.. Palmieri. V., Price. P.L., Briggs, DJ.C. & Parfrey, S.M., 1990. A biostratigraphic framework for the Bowen Basin, in: Beeston. J.W. (compiler), Bowen BAsrN Symposium 1990, Proceedings. Geological Society of Australia (Queensland Division), Brisbane, 26-35. Foster, C.B.. 1979, Permian plant microfossils of the Blair Athol Coal Measures, Baralaba Coal Measures, and basal Rewan Formation of Queensland. Publications of the Geological Survey of Queensland 372, Palaeontological Paper 45. Helby, R., Morgan, R.P. & Partridge, A.D., 1987, A palynological zonation of the Australian Mesozoic. Memoirs of the Association of Australasian Palaeontologists 4: 1 -94. Powis. G.D.. 1989, Revision of Triassic stratigraphy at the Cooper to Eromanga Basin transition, in: B.J. O’Neil (editor), The Cooper & Eromanga Basins Australia. Proceedings of the Petroleum Exploration Society of Australia. Adelaide. 265-277. C.B. Foster 11 January, 1995 Table 1 Palynological Summary for MIM Majestic 1 swc depth (m) contamination index preparation * (MFP) palynological yield palynological preservation biozone age TAI (AMOCO scale) 1 2653 unsuitable no data no data no data no data no data no data 2 2626 unsuitable no data no data no data no data no data no data 2610 3 10417 barren no data no data no data no data 4 2589 4 10418 very low very poor not older than APP 1.2 Early Permian 5*.condensate window 5 2548 3 10419 barren no data no data no data no data 6 2531.5 3 10420 barren no data no data no data no data 7 2524 4 10421 very low very poor APP 2 • APP 5 Early Permian 5* 9 2501 4 10423 barren no data no data no data no data 10 2494 3 10424 barren no data no data no data no data 11 2487 2 10425 very low very poor ?oldest APP 6 ?Late Permian 5+ 12 2302 4 10426 barren no data no data no data no data 13 2281.5 unsuitable no data no data no data no data no data no data 14 2262 3 10428 very low poor Triassic indet Early? Triassic 4, early to pea oil 15 2230 3 10429 abundant very poor Triassic indet Triassic not determined 16 2160 3 10430 low poor Triassic indet Middle? Triassic not determined 17 2113 3 10431 barren no data no data no data no data J 2098 3 10432 very low very poor indet Jurassic 3.4 20 2070 3 10434 moderate poor/fair C. turbatus Early-mid Jurassic 3.4 21 2032 2 10435 very low poor/fair C. turbatus Early-mid 3.4 Jurassic Contamination index refers to the swc sample before processing: 4. no visible contamination; I. grossly contaminated and/or fractured. This index affects the reliability of the interpretation of the assemblage data

APPENDIX 11 LOG EVALUATION M.I.M. PETROLEUM EXPLORATION MAJESTIC - 1 PETROPHYSICAL EVALUATION D. Henderson August 1994 SUMMARY: Majestic-1 wireline logs were evaluated over the interval 2450 to 2625 mRKB. No significant hydrocarbons are interpreted in the evaluated interval. Sands and shales over the interval 2523 - 2576 mRKB have resistivity anomalies normally associated with hydrocarbons. No significant gas or liquid hydrocarbons are interpreted in this interval. Some other potential causes of the resistivity anomaly are; Low salinity water. Higher cementation exponent (m) than was used in the analysis. Assuming that porosity and Rw are correct, then the apparent cementation exponent is about 2.2 compared to 1.9 which was used in the analysis. A significant change in sand mineralogy with a large increase in the fraction of low density minerals such as feldspar (Matrix density of K- feldspars is 2.52 to 2.59 g/cc), Lower than expected matrix density due to the presence of coal fragments. In the clean sand at about 2570 metres, apparent matrix density is about 2.60 g/cc. Assuming that coal density is 2.4 g/cc, it would take about 20 percent coal fragments in the sand to account for the resistivity anomaly. This assumes that all other analysis parameters are correct. DATA AVAILABLE FOR MAJESTIC-1 LOG ANALYSIS DUAL LATEROLOG-SONIC-GAMMA RAY LLD/LLS MSFL GR SP DT 2664.5 2669.5 2655.0 2655.0 2657.5 297.8 mRKB (9 5/8" casing) 1397.0 SURFACE 297.8 297.8 SPECTRAL LITHO DENSITY-COMPENSATED NEUTRON-GAMMA RAY CNS 2663.5 - 1397.5 RHOB/PEF 2669.5 - 1397.5 GR 2661.5 - 1397.5 ANALYSIS METHOD Appendix 1 contains the algorithms used for this analysis. Analysis was done using the program SW INDO written in the GEOLOG LOGLAN language. An empirical relationship using LLD and LLS was used to determine Rt (formation resistivity beyond the filtrate invaded zone). The algorithm is contained in Appendix 1. Shale fraction was calculated using a non-linear function of Gamma Ray response. The presence of coal beds and carbonaceous matter in the shales meant that the density-neutron log combination would not yield reliable shale fraction estimates. Porosity was calculated from the sonic log using the "Time Average" (Wyllie) and Porter equations. The time average equation was corrected for the effects of shale content. The Porter equation, which was developed for Cooper Basin reservoirs, has an incorporated shale term. Shale corrected porosity was estimated from the density log. Shale corrected porosity was estimated from the neutron log. Porosity was estimated from the deep reading resistivity log (Rt) using the Indonesia equation. The method assumes that the formation is water saturated. In hydrocarbon zones, resistivity derived porosity will be too low. Where there is a significant fraction of disseminated coaly material the resistivity log porosity estimates will be the most reliable. Final estimates of porosity (PHIE) were taken as the average of the middle three values calculated above. This method eliminates unreasonably high and low values from further consideration. Water saturation was calculated using the Indonesia shaly sand equation. Since formation water resistivity (Rw) and cementation exponent (m) are not known, apparent water resistivity (Rwa) was calculated in assumed water sands over the intervals 2515 - 2522 and 2592 - 2604 mMDRKB. These values were used to evaluate water saturation in the rest of the interval. The criteria used to determine "Net" gas sand are; Shale fraction < 45 percent, Porosity (PHIE) > 9 percent, and, Water saturation < 60 percent. LOG ANALYSIS PARAMETERS ANALYSIS CONSTANTS: Matrix density: 2.65 g/cc Water density: 1.01 g/cc

Fluid transit time: 189 microsec/ft Cementation Exponent (m): 1.9 Saturation Exponent (n): 1.9 ZONED ANALYSIS PARAMETERS: INTERVAL (mRKB) 2450 - 2507 2507 - 2577 2577 - 2625 Clean sand: Gamma Ray 30 30 30 Water resistivity 0.31 0.31 0.29 Shale parameters: Gamma Ray 200 200 200 Sonic 67 73 67 Density 2.65 2.55 2.65 Neutron porosity .21 0.24 0.21 Resistivity 80 200 80 INTERVAL mMDRKB SAND THICKNESS (metres) GAS PAY (metres) POROSITY Sw REMARKS 2456.3 - 2460.7 4.4 - 3.1 - 8.1 (6.6) (83) Moderately shaly. 2465.3 - 2467.5 2.2 - 4.6 - 8.1 (6.4) (86) Moderately shaly. 2472.3 - 2472.6 0.3 (4.0) Thin, shaly sand. 2508.5 - 2508.9 0.4 - (7.0) (42) Very thin, shaly sand (?) at base of coal. Porosity, hydrocarbon saturation probably too high. 2514.1 - 2522.7 8.6 - 8.1 - 10.1 (9.3) (99) Very clean, homogeneous sand. 2530.4 - 2531.7 1.3 - 7.0 - 9.2 (7.8) (25) Sw too low. Sand is probably carbonaceous resulting in very optimistic apparent porosity and hydrocarbon saturation. 2545.1 - 2545.5 0.4 - (2.0) - Too thin for resolution. 2549.5 - 2551.3 1.8 - 5.2 - 9.9 (7.0) (37) Sand is probably carbonaceous resulting in very optimistic apparent porosity and hydrocarbon saturation. 2561.9 - 2564.0 2.1 - 2.2 - 7.9 (6.2) (77) Clean sand. 2565.4 - 2576.6 11.2 - 4.2 - 7.9 (6.5) (57) Clean, low porosity sand. Interpreted as water saturated. Reason for apparent hydrocarbons unknown. 2591.1 - 2605.7 14.6 - 4.0 - 11.9 (8.5) (100) Some is shaly. Remarks: Average values in parenthesis. Gas pay cutoff criteria: Porosity > 9 % Sw < 60% Vsh < 45 percent Invasion corrected deep reading resistivity (Rt) can be estimated using the empirical relationship; R t - 1.7 * LLD - 0.7 * LLS Shale fraction was calculated from the Gamma Ray log using; A* = bRshtU GR - GR cltm GR clean V sk = (I'k ’ 2 /rt) ) • 0-97 - 0.02 This algorithm assumes that shale fraction is a non-linear frunction of Gamma Ray log response. Porosity was calculated from the sonic log using the "Time Average" equation; $sh ^ma ~ *ma . Porosity was calculated from the sonic log using the empirical "Porter" equation which was developed for Cooper Basin sands. The original Porter equation has been modified for observed Gamma Ray values; - U • 883 SP 140 ’ v „h + 131.16 Shale corrected porosity was calculated from the density log using; Pffia Pfr Pma Py PffM PsA Pma P/ Shale corrected porosity was calculated from the neutron log using; < NFm - ._> - v '.* < .. - *._> Porosity was calculated from deep resistivity ■ ♦ ■ ♦(Rt) by re-arranging the Indonesia equation. This method gives valid porosity values in water zones and where the rock contains coaly matter. The method defines a lower limit for porosity in hydrocarbon zones; 1 2 - *) • (uR*) 2 The final porosity estimate was taken as the average of the 3 middle values calculated above. Where calculated water saturation was more than 100 percent, it was assumed that the formation is 100 percent water saturated and the resistivity porosity was retained as the most acceptable value. The Indonesia shaly sand equation was used to calculate water saturation: 1 where; is shale fraction, and. is shale resistivity. DEPT CALI DT GR C LLS MSFL RHOB NPHI RT PHID PHIN PHIP PHIR PHIS PHIE sw VSH RESER 2467.0 10.2 68.77 85.28 33.2 9.6 2.54 0.12 37.3 .07 .10 .08 .06 .09 .08 .84 .23 0 2467.2 10.1 68.12 ^91.41 r 34.0 11.8 2.56 0.13 38.7 .06 .10 .08 .06 .08 .07 .87 .28 0 2467.4 10.1 67.25 105.42 35.7 12.9 2.59 0.13 41.2 .04 .06 .06 .05 .06 .06 .91 .41 o 2467.6 10.0 66.62 122.49 38.4 32.5 2.61 0.12 45.3 .02 .02 .05 .03 .04 .04 .99 .58 o 2471.2 9.4 64.43 125.70 72.0 21.6 2.63 0.13 72.0 .01 .02 .04 .02 .02 .02 .98 .61 0 2471.4 9.3 65.28 118.70 69.3 25.6 2.62 0.12 69.5 .02 .03 .05 .02 .03 .03 .91 .54 0 2471.6 9.3 65.87 122.65 67.3 22.5 2.63 0.12

67.1 .01 .02 .05 .02 .03 .02 .94 .58 o 2471.8 9.3 66.18 127.17 66.9 16.8 2.64 0.13 66.7 .00 .01 .05 .02 .03 .02 .96 .62 0 2472.0 9.3 66.32 122.93 67.8 15.5 2.65 0.13 68.1 .00 .02 .05 .02 .04 .03 .90 .58 0 2472.2 9.3 66.20 109.75 67.1 15.7 2.65 0.12 68.1 .00 .05 .06 .03 .05 .04 .80 .45 0 2472.4 9.4 65.99 98.20 64.5 27.1 2.66 0.12 66.4 .00 .08 .06 .04 .06 .05 .79 .34 0 2472.6 9.4 65.67 108.25 60.9 55.3 2.68 0.13 63.3 .00 .06 .06 .03 .05 1 .04 .83 .44 0 2475.6 9.5 65.82 120.60 68.2 22.4 2.64 0.13 67.9 .00 .03 .05 .02 .04 .03 .91 .56 9 < 2475.8 9.5 66.32 118.51 67.4 24.1 2.66 0.12 66.5 .00 .03 .05 .02 .04 .03 .89 .54 0 v 2477.6 9.5 63.57 130.40 89.3 49.5 2.66 0.12 83.6 .00 .00 .04 .01 .01 .01 1.00 .65 o : 2477.8 9.5 63.41 130.26 85.3 69.4 2.65 0.12 79.8 .00 .00 .04 .01 .01 .01 1.00 .65 0 ; 2481.8 9.6 64.47 123.32 90.6 64.4 2.63 0.11 83.1 .01 .01 .05 .02 .02 .02 .96 .58 0 2482.0 9.6 64.06 127.43 94.5 52.6 2.63 0.11 87.6 .01 .00 .04 .01 .02 .01 .96 .62 0 2489.0 9.6 65.87 127.34 74.9 57.0 2.62 0.12 78.8 .02 .01 .05 .01 .03 .02 .89 .62 0 2492.4 9.9 68.52 121.74 60.7 4.1 2.60 0.12 63.2 .03 .01 .06 .02 .05 .04 .81 .57 o 2492.6 9.8 68.63 115.77 61.2 4.0 2.63 0.13 62.7 .01 .05 .07 .03 .06 .04 .77 .51 0 2508.6 10.6 64.16 73.76 257.2 818.6 2.44 0.24 207.2 .12 .23 .06 .03 .06 .08 .39 .15 0 2508.8 10.6 65.40 93.32 243.7 57.1 2.43 0.20 158.4 .12 .15 .06 .03 .04 .07 .43 .30 0 2509.0 10.7 71.85 121.08 236.2 156.1 2.41 0.20 138.4 .11 .08 .08 .02 .05 .07 .56 .56 o 2513.2 9.5 67.86 126.81 61.0 41.3 2.56 0.14 91.5 .01 .01 .06 .03 .02 .03 1.00 .62 o 2513.4 9.5 68.67 126.66 56.2 74.6 2.57 0.15 92.5 .01 .01 .06 .02 .02 .02 1.00 .62 o 2514.0 9.4 70.40 117.83 24.1 6.7 2.51 0.12 50.9 .05 .01 .07 .05 .05 .05 .96 .53 0 2514.2 9.4 69.78 81.89 16.5 6.2 2.50 0.09 36.2 .08 .07 .09 .07 .09 .08 .90 .22 0 2514.4 r 9.4 68.69 54.74 13.7 7.9 2.49 0.07 29.8 .09 .10 .10 .09 .10 .09 .93 .06 1 2514.6 9.4 67.68 42.22 12.6 7.6 2.50 0.06 ♦27.5 .09 .09 .09 .09 .10 .09 1.00 .03 i 2514.8 9.4 67.17 37.56 12.8 9.8 2.50 0.04 28.1 .09 .08 .09 .09 .10 .09 1.00 .02 i 2515.0 9.4 67.22 35.41 12.9 9.2 2.50 0.04 28.8 .09 .07 .09 .09 .10 .09 1.00 .02 1 2515.2 9.4 67.47 37.42 13.1 10.6 2.50 0.04 29.5 .09 .07 .09 .09 .10 .09 1.00 .02 i 2515.4 9.4 67.73 43.80 13.2 8.7 2.51 0.04 30.1 .09 .07 .09 .09 .10 .09 1.00 .03 0 2515.6 9.4 67.38 47.73 13.6 12.2 2.52 0.05 31.3 .08 .07 .09 .09 .10 .09 i.oo .04 0 DEPT CALI DT GR C LLS MSFL RHOB NPHI RT PHID PHIN PHIP PHIR PHIS PHIE SW VSH RESER 2530.4 10.4 67.39 60.01 561.9 3.9 2.30 0.04 346.3 .21 .06 .09 .02 .09 .08 .30 .08 0 2530.6 10.2 65.91 55.06 806.0 1.7 1 2.33 0.03 488.1 .19 .05 .08 .02 .08 .07 .28 .06 0 2530.8 10.1 65.05 48.99 1121.1 2.3 2.42 0.03 712.3 .14 .06 .07 .02 .08 .07 .24 .04 0 2531.0 9.9 65.03 45.31 H267.8 7.3 2.49 0.03 872.6 .09 .06 .08 .01 .08 .07 .21 .03 0 2531.2 9.7 66.81 1 50.05 1186.8 10.5 2.50 0.04 904.7 .09 .07 .09 .01 .09 .08 .18 .04 0 2531.4 9.7 70.31 70.93 918.0 99.1 2.46 0.07 791.0 .11 .07 .10 .01 .10 .09 .18 .14 1 2531.6 9.7 73.82 101.18 561.1 183.8 2.45 0.11 568.8 .10 .05 .10 .01 .10 .08 .38 .38 6 2531.8 9.7 75.45 127.18 316.2 153.4 2.45 0.14 364.4 .08 .01 .09 .01 .07 .06 .62 .62 0 2532.0 9.8 75.48 131.13 193.1 100.3 2.44 0.15 228.0 .09 .01 .09 .01 .07 .05 .66 .66 o 2532.2 9.8 75.79 117.70 122.9 12.8 2.43 0.14 ^40.0 .10 r .03 .10 .02 r .09 .07 .53 .53 0 2532.4 9.8 76.93 105.83 98.0 8.2 2.44 0.13 105.8 .10 .05 .11 .03 .11 .09 .44 .42 0 2532.6 9.8 78.11 112.87 95.2 2.7 2.46 0.14 99.3 .09 .04 .11 .03 L - 11 .08 .49 .48 0 2537.8 9.7 74.41 123.29 73.3 18.7 2.51 0.15 95.7 .05 .03 .09 .03 .07 .05 .68 .58 0 2538.0 9.7 76.35 116.52 68.6 13.8 2.50 0.14

94.7 .06 .04 .10 .03 .09 .06 .58 .52 0 2538.2 9.7 78.97 126.01 80.4 30.9 2.45 0.16 118.8 .08 .03 .10 .02 .10 .07 .61 .61 o 2539.8 9.7 71.56 124.11 190.9 2.9 2.52 0.14 195.8 .04 .02 .07 .01 .05 .04 .61 .59 0 2540.0 9.7 69.95 107.24 157.9 18.2 2.54 0.14 163.9 .04 .06 .08 .02 .06 .05 .52 .43 0 2540.2 9.7 70.36 112.70 158.5 65.7 2.53 0.15 175.1 .04 .05 .07 .02 .06 .05 .50 .48 o 2540.4 9.7 73.39 119.41 199.0 148.9 2.47 0.17 239.4 .08 .05 .08 .01 .07 .07 .55 .55 0 2540.6 9.7 77.02 123.19 256.6 177.0 2.39 0.19 314.8 .12 .06 .10 .di .09 .08 .58 .58 0 2540.8 9.7 79.23 130.97 299.0 431.9 2.36 0.20 362.5 .14 .05 .10 .01 .10 .08 .66 .66 o 2545.0 9.7 64.79 132.20 182.1 109.4 2.80 0.17 290.5 .00 .03 .04 .01 .00 .01 .87 .66 0 2545.2 9.7 60.07 100.62 187.9 982.5 2.91 0.16 292.2 .00 .10 .03 .01 .00 .02 .90 .37 o 2545.4 9.7 59.26 91.72 189.4 113.0 2.85 0.17 288.8 .00 .13 .03 .02 .00 .02 .98 .29 0 2545.6 9.7 63.42 114.41 194.1 149.9 2.68 0.18 296.5 .00 .08 .04 .01 .00 .02 .72 .50 0 2549.4 9.8 81.21 124.01 237.4 70.1 2.37 0.19 430.2 .13 .07 .11 .01 .12 .10 .59 .59 0 2549.6 r 9.9 74.95 r 98.29 238.8 r 92.7 2.49 0.14 413.6 .08 .08 .11 .01 .11 .09 .35 .35 0 2549.8 9.9 69.54 86.22 274.5 47.2 2.52 0.10 430.5 .06 .07 .09 .02 .08 .07 .27 .24 o 2550.0 10.0 67.60 80.27 323.3 80.0 2.52 0.07 463.1 .07 .05 .08 .02 .08 .07 .29 .19 o 2550.2 10.1 67.81 72.71 334.9 92.0 2.52 0.05 446.2 .07 .05 .08 .02 .08 .07 .29 .14 0 2550.4 10.2 68.14 66.15 297.3 59.8 2.53 0.05 373.9 .07 .06 .09 .02 .09 .07 .31 .10 o 2550.6 10.3 68.04 68.01 222.9 33.5 2.53 0.06 261.2 .07 .06 .09 .03 .09 .07 .37 .12 o 2550.8 10.4 68.10 76.46 155.2 35.7 2.53 0.07 175.8 .07 .07 .08 .03 .08 .07 .45 .17 b 2551.0 10.5 68.48 87.25 128.0 50.6 2.53 H 0.10 151.8 .06 .07 .08 .03 .07 .07 .50 .25 0 2551.2 10.6 69.09 102.01 148.4 186.7 2.55 0.12 184.3 .04 .05 .07 .02 .06 .05 .51 .38 0 DEPT CALI DT fiRC LLS MSFL RHOB NPHI RT PHID PHIN PHIP PHIR PHIS PHIE SW VSH RESER 2569.8 9.4 65.78 58.17 115.6 61.2 2.52 0.03 220.7 .08 .05 .08 .03 .08 .07 .45 .07 0 2570.0 9.3 65.13 52.57 113.2 107.9 2.54 0.03 217.5 .07 .05 .07 .03 H .08 .06 .48 .05 0 2570.2 9.3 64.30 55.18 105.5 104.0 2.56 0.03 203.8 .05 .05 .07 .03 .07 .06 .55 .06 0 2570.4 9.3 63.72 61.20 99.8 84.1 2.57 0.03 194.7 .04 .05 .06 .03 .06 .05 .60 .08 0 2570.6 9.3 63.75 66.69 97.3 173.9 2.56 0.04 192.8 .05 .05 .06 .03 .06 .05 .60 .11 b 2570.8 9.3 64.78 69.29 93.2 77.6 2.55 0.04 187.3 .06 .04 .07 .03 .07 .06 .57 .12 0 2571.0 9.3 65.98 67.70 91.4 23.1 2.53 0.03 185.1 .07 .04 .08 .03 .08 .06 .53 .11 0 2571.2 9.3 66.42 60.48 85.8 33.4 2.52 0.03 175.6 .07 .05 .08 .03 .08 .07 .51 .08 0 2571.4 9.3 66.14 52.53 83.8 63.6 2.53 0.03 172.5 .07 .05 .08 .03 .09 .07 .51 .05 0 2571.6 9.3 65.66 47.82 82.9 41.5 2.52 0.02 171.8 .07 .05 .08 .03 .08 .07 .51 .04 0 2571.8 9.3 65.47 45.90 78.3 61.7 2.52 0.02 165.3 .07 .06 .08 .04 .08 .07 .52 .03 o 2572.0 9.3 65.55 49.09 71.9 53.4 2.53 0.03 152.9 .07 .06 .08 .04 .08 .07 .55 .04 0 2572.2 9.3 66.01 55.36 63.4 35.8 2.53 0.03 135.3 .07 .05 .08 .04 .08 .07 .58 .06 0 2572.4 9.3 66.76 60.03 55.4 106.3 2.52 0.03 118.2 .07 .05 .08 .04 .09 .07 .60 .08 0 2572.6 9.3 67.28 61.13 52.3 23.9 2.53 0.04 109.3 .07 .06 .09 .04 .09 .07 .62 .08 0 2572.8 9.3 67.14 63.27 53.9 29.5 2.54 0.04 110.8 .06 .05 .08 .04 .09 .07 .65 .09 0 2573.0 9.3 66.37 64.37 59.0 39.3 2.55 0.04 118.6 .06 .05 .08 .04 .08 .06 .66 .10 0 2573.2 9.4 65.73 60.02 65.2 63.4 2.54 0.04 130.2 .06 .06 .08 1 .04 .08 .06 .62 .08 0 2573.4 9.4 65.43 56.90 68.9 44.7 2.54 0.04 139.4 .06 .06 .08 .04 .08 .07 .59 .06 0 2573.6 9.4 65.62 60.15 69.6 95.0 2.54 0.03 143.4 .06 .05 .08 .04 .08 .06 .59 .08 0 2573.8 9.4 65.94 66.35 68.2 98.9 2.55 0.04

142.8 .06 .05 .08 .04 .08 .06 .62 .11 0 2574.0 9.4 66.07 70.38 64.0 30.1 1 2.55 0.04 135.0 .05 .04 .07 .04 .07 .06 .65 .13 0 2574.2 9.4 65.99 72.76 61.2 31.9 2.55 0.04 126.8 .05 .04 .07 .04 .07 .06 .69 .14 0 2574.4 9.4 65.42 74.69 61.2 34.9 2.55 0.05 123.7 .05 .04 .07 .04 .07 .05 .72 .16 0 2574.6 9.4 64.91 71.99 63.2 40.9 2.56 0.04 124.4 .05 .05 .07 .04 .06 .05 .73 .14 0 2574.8 9.4 64.42 64.76 68.9 198.5 2.56 0.04 131.6 .05 .05 .07 .04 .07 .05 .70 .10 o 2575.0 9.4 64.60 59.31 71.3 43.5 2.55 0.03 134.4 .06 .05 .07 .04 .07 .06 .66 .07 o 2575.2 9.5 65.27 56.83 72.5 38.8 2.53 0.03 133.6 .07 .06 .07 .04 .08 .07 .59 .06 0 2575.4 9.5 65.96 54.20 74.7 37.7 2.50 0.04 134.4 .09 .06 .08 .04 .08 .07 .53 .05 0 2575.6 9.5 66.54 52.23 77.5 34.9 2.50 0.04 138.1 .09 .06 .08 .04 .09 .08 .50 .05 0 2575.8 9.5 66.73 53.07 84.8 42.9 2.51 0.04 149.6 .08 .07 .08 .04 .09 .08 .48 .05 0 2576,0 9.5 66.61 55.15 88.2 45.0 2.51 0.04 154.9 .08 .06 .08 .04 .09 .08 .49 .06 o 2576.2 9.5 65.94 50.98 87.3 26.2 2.50 0.03 152.2 .09 .06 .08 .04 .09 .08 .50 .05 0 2576.4 9.5 64.73 42.58 85.9 26.1 2.50 0.03 144.5 .09 .06 .07 .04 .08 .07 .55 .03 0 2576.6 9.6 63.89 35.03 86.9 18.6 2.50 0.02 129.9 .09 .06 .07 .04 .07 .07 .62 .02 0 DEPT CALI DT GR.C LLS MSFL RHOB NPHI RT PHID PHIN PHIP PHIR PHIS PHIE sw VSH RESER 2591.0 9.5 61.11 125.92 68.6 181.7 2.89 0.18 69.4 .00 .07 n03 .02 .00 .02 .99 .61 0 2591.2 9.5 61.09 97.35 54.5 292.8 2.89 0.18 57.6 .00 .13 .04 .04 .02 .04 1.00 .34 0 2591.4 9.5 62.62 78.99 35.5 28.9 2.76 0.17 39.4 .00 .16 .05 .06 .05 .06 1.00 .19 0 2591.6 9.5 64.46 81.33 22.7 18.4 2.62 0.16 26.6 .02 .15 .06 .08 .06 .08 1.00 .20 0 2591.8 9.6 65.62 93.09 19.8 40.4 2.57 0.15 23.6 .05 .11 .06 .08 .06 .08 1.00 .30 0 2592.0 9.6 66.64 103.91 18.3 30.1 2.56 0.14 22.1 .06 .08 .06 .08 .06 .08 1.00 .40 0 2592.2 9.6 67.05 103.39 17.3 22.1 2.55 0.15 21.0 .06 .09 .06 .08 .06 .08 1.00 .39 0 2592.4 9.6 66.96 94.95 15.6 9.4 2.56 0.15 18.9 .06 .11 .07 .09 .07 .09 1.00 .32 0 2592.6 9.6 66.65 87.58 14.1 12.9 2.56 0.15 17.1 .05 .13 .07 .10 .07 .10 1.00 .25 1 2592.8 9.6 66.93 84.61 13.8 59.1 2.56 0.15 16.8 .06 .13 .07 .10 .08 .10 1.00 .23 1 2593.0 9.6 67.95 84.45 13.6 13.8 2.54 0.15 16.5 .06 .13 .08 .10 .08 .10 1.00 .23 i 2593.2 9.6 68.30 86.72 13.3 9.2 2.54 0.15 16.5 .07 .13 .08 .10 .08 .10 1.00 .24 1 2593.4 9.6 67.92 91.05 13.5 52.4 2.53 0.15 16.7 .07 .12 .07 .10 .08 .10 1.00 .28 1 2593.6 9.6 67.32 92.98 13.3 16.6 2.54 0.15 16.5 .07 .11 .07 .10 .07 .10 1.00 .30 i 2593.8 9.6 66.83 89.75 14.0 14.2 2.54 0.14 17.0 .07 .12 .07 .10 .07 .10 1.00 .27 i 2594.0 9.6 66.03 87.85 16.4 10.6 2.55 0.14 18.8 .06 .12 .07 .09 .07 .09 1.00 .25 i 2594.2 9.6 64.05 92.17 24.3 32.6 2.58 0.14 27.4 .04 .11 .05 .07 .05 .07 1.00 .29 0 2594.4 9.6 61.94 96.17 31.5 r 67.1 2.61 0.15 36.4 .03 .11 .04 .06 .03 .06 1.00 .33 0 2594.6 9.6 61.00 96.21 33.5 57.0 2.62 0.15 39.1 .02 .11 .04 .05 .02 .05 1.00 .33 6 2594.8 9.6 61.37 92.46 30.7 38.9 2.59 0.15 36.7 .04 .12 .04 .06 .03 .06 1.00 .29 0 2595.0 9.6 62.83 1 88.87 22.5 33.3 2.56 0.15 27.5 .06 .12 .05 .07 .04 .07 1.00 .26 0 2595.2 9.6 64.50 87.79 16.6 10.2 2.55 0.15 f 20.0 .06 .12 .06 .09 .06 .09 i .oo .25 0 2595.4 9.6 65.54 86.78 15.4 31.8 2.56 0.15 18.2 .06 .13 .06 .10 .06 .10 1.00 .25 1 2595.6 9.6 65.94 86.61 16.2 12.3 2.57 0.15 18.4 .05 .13 .07 .10 .07 .10 1.00 .24 i 2595.8 9.6 65.45 86.41 19.2 20.2 2.58 0.15 20.9 .04 .13 .06 .09 .06 .09 i.oo .24 0 2596.0 9.6 65.08 89.24 24.6 24.3 2.58 0.15 26.2 .04 .12 .06 .08 .06 .08 1.00 .27 0 2596.2 9.6 63.90 92.82 31.3 49.6 2.58 0.15 34.4 .04 .11 .05 .06 .05 .06 1.00 .30 0 2596.4 9.6 61.82 94.31 35.2 42.8 2.58 0.15

40.1 .04 .11 .04 .05 .03 .05 1.00 .31 0 2596.6 9.6 60.25 93.73 34.0 35.8 2.58 0.14 40.0 .04 .10 .03 .05 .02 .05 1.00 .30 6 2596.8 9.6 60.90 91.46 27.9 50.8 2.57 0.14 34.3 .05 .11 .04 .06 .03 .06 1.00 .28 0 2597.0 9.6 63.30 87.13 20.3 29.6 2.56 0.13 25.5 .06 .11 .05 .08 .05 .08 1.00 .25 0 2597.2 9.6 65.83 78.98 15.3 11.6 2.54 0.12 19.0 .07 .12 .07 .10 .07 .10 1.00 .18 1 2597.4 9.6 68.07 68.34 14.4 14.7 2.52 0.11 17.7 .08 .12 .09 .11 .10 .11 i.oo .12 1 2597.6 9.6 69.85 58.27 14.6 9.9 2.51 0.09 17.6 .09 .11 .10 .11 .11 .11 1.00 .07 i 2597.8 9.6 71.33 51.01 15.5 9.7 2.50 0.08 18.3 .09 .11 .11 .11 .13 .11 .99 .05 i . DEPT CALI DT GR C LLS MSFL RHOB NPHI RT PHID PHIN PHIP PHIR PHIS PHIE sw VSH RESER 2598.0 9.5 72.23 46.91 15.9 10.3 2.50 0.08 18.7 .09 .11 .12 .11 .13 .11 .97 .04 1 • 2598.2 9.5 72.34 46.34 16.0 11.7 2.51 0.08 18.7 .09 .11 .12 .11 .14 .12 .95 .03 1 ' 2598.4 9.5 71.40 48.41 16.2 11.9 2.52 0.09 18.8 .08 .12 .12 .11 .13 .11 .95 .04 1 . 2598.6 9.5 69.78 53.03 16.3 11.8 2.53 0.09 18.8 .07 .12 .10 .11 .12 .11 .99 .05 1 - 2598.8 9.5 68.03 59.43 16.8 12.4 2.54 0.09 19.2 .07 .12 .09 .11 .10 .11 1.00 .07 1 2599.0 9.5 66.44 63.94 18.7 14.9 2.54 0.09 20.9 .07 .11 .08 .10 .09 .10 1.00 .09 1 2599.2 9.5 64.94 67.22 21.1 12.3 2.56 0.10 23.4 .06 .i i .07 .09 .07 .09 1.00 .11 0 2599.4 9.5 63.59 72.92 23.3 33.8 2.58 0.11 25.7 .04 .11 .06 .09 .06 .09 1.00 .14 6 2599.6 9.5 62.97 80.62 24.1 48.8 2.59 0.13 26.4 .04 .12 .05 .08 .05 .08 1.00 .20 6 2599.8 9.5 63.59 86.05 23.0 13.1 2.57 0.13 24.9 .05 .11 .05 .08 .05 .08 1.00 .24 0 2600.0 9.5 65.23 85.25 22.2 14.9 2.54 0.13 23.6 .07 .11 .06 .08 .06 .08 1.00 .23 6 2600.2 9.4 66.23 83.09 23.1 23.9 2.54 0.12 23.7 .07 .11 .07 .08 .07 .08 1.00 .22 6 2600.4 9.4 66.07 84.14 26.7 31.1 2.55 0.12 26.2 .06 .10 .07 .08 .07 .08 1.00 .22 6 2600.6 9.4 64.57 93.65 33.0 48.2 2.57 0.13 31.9 .05 .09 .06 .06 .05 .06 1.00 .30 0 2600.8 9.4 62.66 101.38 40.5 107.7 2.59 0.14 39.5 .04 .08 .04 .05 .03 .05 1.00 .37 6 2601.0 9.4 61.06 102.46 47.0 87.3 2.59 0.14 47.3 .03 .09 .04 .04 .02 .04 1.00 .38 0 2601.2 9.4 60.39 99.51 46.4 45.1 2.59 0.14 49.0 .03 .09 .03 .04 .02 .04 i.oo .36 6 2601.4 9.3 60.96 94.02 40.0 43.7 2.59 0.14 44.0 .04 .10 .04 .05 .02 .05 1.00 .31 6 2601.6 9.3 62.51 86.19 30.0 20.9 2.57 0.13 34.3 .05 .11 .05 .07 .04 .07 1.00 .24 6 2601.8 9.3 64.54 78.08 19.7 9.5 2.55 0.13 23.2 .06 .12 .06 .09 .06 .09 1.00 .18 0 2602.0 9.3 66.14 72.87 14.4 10.1 2.54 0.13 16.7 .07 .13 .07 .11 .08 .11 1.00 .14 1 2602.2 9.3 66.66 72.07 13.0 9.0 2.54 0.12 14.4 .07 .13 .08 .12 .08 .12 1.00 .14 1 2602.4 9.3 66.08 71.41 14.4 9.0 2.54 0.11 15.1 .07 .12 .07 .12 .08 .12 1.00 .13 1 2602.6 9.3 65.25 66.50 20.3 29.7 2.52 0.10 21.0 .08 .11 .07 .10 .08 .10 1.00 .11 1 2602.8 9.3 64.66 59.84 27.5 30.7 2.52 0.08 28.5 .08 .10 .07 .09 .07 .09 1.00 .08 0 2603.0 9.3 64.21 58.12 31.9 49.9 2.53 0.08 33.6 .08 .10 .07 .08 .07 .08 1.00 .07 0 2603.2 9.2 63.88 66.19 32.4 27.5 2.55 0.08 35.0 .06 .10 .06 .07 .07 .07 1.00 .11 6 2603.4 9.2 63.96 75.33 28.4 26.1 2.57 0.10 31.5 .05 .10 .06 .07 .06 .07 1.00 .16 0 2603.6 9.2 63.95 79.17 24.2 19.0 2.57 0.12 27.1 .05 .12 .06 .08 .06 .08 1.00 .19 0 2603.8 9.2 63.53 78.83 22.2 20.2 2.58 0.14 25.0 .04 .13 .06 .08 .06 .08 1.66 .18 0 2604.0 9.2 63.01 80.12 21.4 18.3 2.58 0.14 24.4 .04 .14 .05 .08 .05 .08 1.00 .19 0 2604.2 9.2 63.31 83.31 20.5 40.4 2.58 0.15 23.3 .04 .13 .05 .09 .05 .09 1.00 .22 6 2604.4 9.2 64.21 92.19 19.7 16.6 2.57 0.15 22.2 .05 .12 .06 .08 .05 .08 1.00 .29 0 2604.6 9.2 65.29 100.09 18.5 21.6 2.56 0.16 20.6 .06 .11 .06 .08 .05 .08 i.oo .36 6 2604.8 9.3 65.90 101.54 18.1 37.4 2.54 0.16 19.9 .07 .10

.06 .08 .05 .08 1.00 .38 6 DEPT CALI DT GR C LLS MSFL RHOB NPHI RT PHID PHIN PHIP PHIR PHIS PHIE sw VSH RESER 2605.0 9.3 66.23 93.64 17.5 18.0 2.53 0.15 19.0 .07 .12 .06 .09 .06 .09 1.00 .30 0 2605.2 9.4 66.70 84.38 16.9 33.4 2.51 0.15 18.0 .08 .13 .07 .10 .07 .10 1.00 .23 1 2605.4 9.4 67.20 84.02 16.7 13.3 2.51 0.14 17.1 .09 .13 .07 .10 .08 .10 1.00 .22 1 2605.6 9.3 66.99 95.82 18.3 13.2 2.52 6.14 17.7 .08 .10 .07 .09 .07 .09 1.00 .32 0 2605.8 9.1 65.59 119.24 24.5 29.9 2.56 0.14 22.7 .06 .05 .05 .07 .04 .07 1.00 .54 0 2622.2 9.1 63.10 127.94 35.2 35.1 2.70 0.10 36.2 .00 .00 .04 .04 .01 .04 1.00 .63 0 2622.4 9.1 63.68 128.55 34.6 33.3 2.64 0.09 35.7 .01 .66 .04 .04 .01 .04 1.00 .63 6 2622.6 9.1 64.23 130.47 33.7 33.9 2.62 0.09 34.8 .02 .00 .04 .04 .01 .04 1.00 .65 6 2622.8 9.1 64.37 130.08 32.8 36.1 2.62 6.08 33.9 .02 .66 .04 .04 .02 .04 1.00 .65 0 2623.0 9.1 64.06 129.29 32.5 35.4 2.62 0.09 34.4 .02 .66 .04 .04 .01 .04 1.00 .64 0 2623.2 9.1 63.55 128.42 31.8 34.6 2.62 0.09 34.3 .02 .00 .04 .04 .01 .04 1.00 .63 6 2623.4 9.1 63.12 129.92 30.8 40.6 2.64 0.09 34.2 .01 .66 .04 .04 .01 .04 1.00 .65 0 2667.0 8.3 55.75 73.58 757.2 2000.0 2.65 0.12 1037.8 .00 .12 .01 .01 .00 .01 1.00 .15 6 2667.2 8.3 55.75 17.91 758.5 392.2 2.64 0.12 1040.8 .00 .16 .01 .01 .01 .01 .88 .02 0 2667.4 8.3 55.75 0.00 757.6 336.1 2.63 0.12 1042.6 .01 .16 .01 .01 .01 .01 .88 .02 0 2667.6 8.3 55.75 0.00 758.0 260.2 2.63 0.12 1040.7 .01 .16 .01 .01 .01 .01 .88 .02 0 2667.8 8.3 55.75 0.00 756.7 715.1 2.64 0.12 1042.8 .01 .16 .01 .01 .01 .01 .88 .02 0 2668.0 8.3 55.75 0.00 755.5 1184.2 2.64 0.12 1046.6 .00 .16 .01 .01 .01 .01 .88 .02 0 2668.2 8.3 55.75 0.00 755.5 236.3 2.64 6.12 1050.3 .01 .16 .01 .01 .01 .01 .88 .02 6 2668.4 8.3 55.75 0.00 754.9 256.7 2.64 0.14 1052.6 .00 .18 .01 .01 .01 .01 .88 .02 0 2668.6 8.3 55.75 0.00 756.3 243.4 2.65 0.20 1050.9 .00 .24 .01 .01 .01 .01 .88 .02 6 2668.8 8.3 55.75 0.00 756.9 634.1 2.65 6.39 1045.2 .00 .43 .01 .01 .01 .01 .88 .02 0 2669.0 8.2 55.75 0.00 760.3 315.8 2.66 1.05 1048.5 .00 .05 .01 .01 .01 .01 .88 .02 6 2669.2 8.1 55.75 0.00 766.0 404.0 2.66 1.05 1058.9 .00 .05 .01 .01 .01 .01 .88 .02 0 2669.4 8.1 55.75 0.00 773.2 1238.1 2.67 0.26 1066.9 .00 .04 .01 .01 .01 .01 .87 .02 6 2669.6 8.0 55.75 0.00 776.2 520.3 2.67 0.00 1073.6 .00 .04 .01 .01 .01 .01 .87 .02 0 2669.8 8.0 55.75 0.00 784.1 457.2 2.68 0.00 1053.8 .00 .04 .01 .01 .01 .01 .88 .02 0 2670.0 8.0 55.75 0.00 783.5 1 700.7 2.68 0.00 1006.5 .00 .04 .01 .01 .01 .01 .89 .02 0 2670.2 8.0 55.75 0.00 783.9 51621.6 2.68 0.00 961.7 .00 .04 .01 .01 .01 .01 .91 .02 6 2670.4 8.0 55.75 0.00 784.5 758.7 2.67 0.00 919.4 .00 .04 .01 .01 .01 .01 .92 .02 0 2670.6 8.0 55.75 0.00 781.4 376.3 2.67 0.00 900.6 .00 .04 .01 .01 .01 .01 .93 .02 0 2670.8 8.0 55.75 0.00 781.4 584.8 2.67 0.00 900.6 .00 .04 .01 .01 .01 .01 .93 .02 0 2671.0 7.9 55.75 0.00 781.4 212.7 2.67 0.00 900.6 .00 .04 .01 .01 .01 .01 .93 .02 0 2671.2 7.9 55.75 0.00 781.4 252.7 2.67 0.00 900.6 .00 .04 .01 .01 .01 .01 .93 .02 0 2671.4 7.9 55.75 0.00 781.4 1015.5 2.67 0.00 900.6 .00 .04 .01 .01 .01 .01 .93 .02 0 DEPT CALI DT GR C LLS MSFL RHOB NPHI RT PHID PHIN PHIP PHIR PHIS PHIE sw VSH RESER 2671,6 7.9 55.75 0.00 781.4 612.7 2.66 0.00 900.6 00 04 .01 .01 .01 .01 .93 02 0 2671,8 7.9 55.75 0.00 781.4 1104.7 2.66 0.00 900.6 1 00 04 .01 .01 .01 .01 .93 02 0 2672.0 7.9 55.75 0.00 781.4 1660.7 2.66 0.00 900.6 00 04 .01 .01 .01 .01 .93 02 o 2672.2 7.9 55.75 0.00 781.4 328.0 2.67 0.00 900.6 00 04 .01 .01 .01 .01 .93 02 o 2672.4 7.9 55.75 0.00 781.4 739.7 2.67 0.00 900.6 00 04 .01 .01 .01 .01 .93 02 0 2672,6 7.9 55.75 0.00 781.4 661.1 2.67 0.00 900.6 00

04 .01 .01 .01 .01 .93 02 0 2672.8 7.9 55.75 0.00 781.4 341.3 2.67 o.oo^ 900.6 00 04 .01 .01 .01 .01 .93 02 0 2673.0 7.9 55.75 0.00 781.4 2089.4 2.66 0.00 900.6 00 04 .01 .01 .01 .01 .93 02 o 2673.2 7.9 55.75 0.00 781.4 1162.5 2.67 0.00 900.6 00 04 .01 .01 .01 .01 .93 02 0 2673.4 7.9 55.75 0.00 781.4 389.6 2.68 0.00^ 900.6 00 04 .01 .01 .01 .01 .93 02 o 2673.6 7.9 55.75 0.00 781.4 1523.3 2.69 0.00 900.6 00 04 .01 .01 .01 .01 .93 02 o 2673,8 7.9 55.75 0.00 781.4 384.1 2.69 0.00 900.6 00 04 .01 .01 .01 .01 .93 02 o 2674.0 7.9 55.75 0.00 781.4 205.9 2.62 0.00 900.6 02 04 .01 .01 .01 .02 .86 02 0 2674.2 7.9 45.48 0.00 781.4 933.3 2.58 0.00 900.6 04 04 -.05 .01 .00 .02 .83 02 0 2674.4 7.9 26.94 0.00 781.4 1001.9 2.60 0.00 900.6 03 04 -.18 .01 .00 .02 .93 02 b 2674.6 7.9 8.74 0.00 781.4 1770.4 2.67 0.00 900.6 66 04 -.30 .01 .00 .01 1.00 02 0 2674.8 7.9 0.00 0.00 752.7 263.0 2.73 0.00 867.5 00 .04 -.35 .01 .00 .01 1.00 .02 o

Q0001559 ENCLOSURE 3 VELOCITY SURVEY n P2 7 Velocity Data w V VELOCITY SURVEY MAJESTIC No 1 ATP 549P QUEENSLAND, AUSTRALIA for M.I.M. PETROLEUM EXPLORATION PTY LTD recorded by VELOCITY DATA PTY LTD processed by Integrated Seismic Technologies Brisbane, Australia 11 August 1994 CONTENTS SUMMARY 1 GENERAL INFORMATION 1 EQUIPMENT 2 RECORDING 3 PROCESSING Elevation Data ... ... ... 3 Recorded Data ... ... ... 4 Correction for Instrument ... ... 4 Delay and Shot Offset Correction to Datum ... ... ... 4 Calibration of Sonic Log Method ... ... ... 5 Results ... ... ... 5 Trace Playouts ... ... ... 6 FIGURES Figure 1 Shot location sketch Figure 2 Time-depth and velocity curves Figure 3 Trace playouts Tables Table 1 Time-depth values Enclosures Calculation Sheets Trace Display and First Arrival Plots LocE •O ffPm Well phone(ch 1) • Drilling floor■ Figure 1 Loe A 13.5m 14m Loc C 41m _oc D Mud Tanks MUD PIT CR2 MAJESTIC-I SHOT POINT LOCATION SKETCH MIM Name of Well Location Coordinates Date of Survey Wireline Logging Weather Operational Base Operator Shooter Client Representative SUMMARY Velocity Data Pty Ltd conducted a velocity survey for M.I.M. Petroleum Exploration Pty. Ltd. in the Majestic No. 1 well ,ATP 549P, Queensland, Australia. The date of the survey was the 16 June 1994. The results of the survey, which are considered to be reliable, have been used to calibrate the sonic log. Explosives were used as an energy source with shots being fired in the mud pit in the majority of instances. GENERAL INFORMATION : Majestic No. 1 : ATP549P : Latitude 26 39 59.49 S : Longitude 142 42 54.14 E : 16 June, 1994 : Halliburton Geophysical : Fine : Brisbane : D. Blick : R. Cooper : Mr. T. Grewar EQUIPMENT Downhole Tool Veldata Camlock 100 (90 mm) Sensors: 6 HSI 4.5 Hz 215 ohm, high temperature (300 degrees F) detectors connected in series parallel. Frequency response 8-300 Hz within 3 dB. Preamplifier: 48 dB fixed gain. Frequency response 5-200 Hz within 3 dB. Reference Geophone Mark Products LI 4.5 Hz Recording Instruments (1) System VDLS 11/23 D.E.C software based high resolution seismic acquisition instruments Computer: D.E.C. 11/23 Resolution: A/D conversion 12 bits Dynamic Range: 96dB Total Gain: 120dB Data channels ; 5 Display: R4 Oscillograph (2) System VDL 16 Windows based high resolution seismic acquisition instruments Computer: 386 Portable computer Resolution: A/D conversion 16 bits Dynamic Range: 96dB Total Gain: 136dB Data channels: 8 Display: A4 Bubble Jet Printer 300 D.P.I. RECORDING Energy Source Shot Location Charge Size Average Shot Depth Mud Pit Shot Offset Recording Geometry : Explosive, Powergel : Mud pit : .2/2.0 sticks : 0.7 metres : 41 metres : Figure 1 Acquisition of the survey was carried out using two recording systems. The DEC VDLS 11/23 represented by shots 1 to 28 and the VDL 16 shots 29 to 48. This was considered necessary as the high cut filters available on the DEC at the time of this survey, were considered adequate to attenuate the noise spikes which developed at deep hole depths. Shots were recorded on both 3^/2* floppy disc and digital cassette tape. Printouts of the shots used are included with this report. The sample rate varied from 0.5 msec for shots 29 to 48 to 1 ms for the remainder of the survey. The scale of the graphic display varies with signal strength and is noted on each playout. The times were picked from a sample by sample screen plot, a full set of these trace displays can be seen at the rear of the report. PROCESSING Elevation Data Elevation of KB : 165.0m above sea level Elevation of Ground 159.0m above sea level Elevation of Seismic Datum Depth Surveyed Total Depth Depth of Casing Sonic Log Interval : 0.0m above sealevel : 2665.0m below KB :

2670.0m below KB : 298.0m below KB : 7.6 to 2675.6m below KB PROCESSING Recorded Data Number of Shots Used : 46 Number of Levels Recorded : 28 Data Quality : Good Noise Level : Moderate Correction for Instrument Delay and Shot Offset The 'corrected' times shown on the calculation sheet have been obtained by: Subtraction of the instrument delay (0msec) from the recorded arrival times geometric correction for non-verticality of ray paths resulting from shot offset. shot static correction to correct for the depth of shot below ground level at the well head using an uphole time determined from surface channel information. re-addition of the instrument delay (0msec). Correction to Datum The datum chosen was 0.0 metres ASL that is 165.0 metres below KB. This level was shot 4 times during the survey, three of which have been used to calculate an effective datum correction time of 95.9msec. PROCESSING Calibration of Sonic Log - Method Sonic times were adjusted to checkshot times using a polynomial derived least squares fit correction of the sonic transient times. The sonic log that lay within the casing was deleted from the calibration. Differences between the sonic and checkshot times arise as the sonic tool measures the local velocity characteristics of the formation with a high frequency signal, whereas the downhole geophone records the bulk velocity character using a signal of significantly lower frequency. Calibration of Sonic Log - Results ( Enclosure 1) The discrepancies between shot and sonic interval velocities were generally small. The largest of these occurred over the interval 2263.0 to 2297m which yielded an interval sonic drift of 155.88 psec/m. It is uncertain why the sonic drift is elevated at this interval, however the problem may result from poor borehole conditions. In aggregate, the shot and sonic interval times differed by 4.8 msec over the logged portion of the well. PROCESSING Trace Playouts (Figure 3 ) Figure 3 A & 3B is a plot of all raw data traces used. Figure 3C & 3D is a plot to scale in depth and time of selected traces. Figure 3E & 3F is a plot of selected surface traces.. Troy Peters Geophysicist I 1000 28 282.06 27 36.58 26 27.25 25 20.17 24 9.77 23 15.73 22 10.61 21 11.02 20 8.80 19 8.10 18 6.36 16 15 14 13 14.52 12 5.80 11 5.18 10 9 4.34 8 4.23 7 6.22 6 6.14 5 6.08 4 3.61 3 4.09 2 22.85 Time (msec) MAJESTIC-1 VELOCITY SURVEY TRACE DISPLAY MAJESTIC-1 VELOCITY SURVEY TRACE DISPLAY 28 DOI 27 DOI 26 DOI 25 DOI 24 001 23 DOI 22 001 21 DOI 20 001 19 DOI 18 DOI 16 DOI 15 DOI 14 DOI 13 DOI 12 DOI 11 DOI 10 DOI 9 001 8 001 7 DOI 6 DOI 5 DOI 4 DOI 3 DOI 2 001 28 DOI 27 DOI 26 DOI 25 001 24 DOI 23 001 22 DOI 21 DOI 20 001 19 DOI 18 DOI 16 DOI 15 001 14 DOI 13 001 12 001 11 DOI 10 DOI 9 DOI 8 DOI 7 DOI 6 001 5 DOI 4 001 3 DOI 2 001 I I I I I I 0 20 40 60 80 100 Time (msec) Channel 1 0 20 40 60 80 100 Time (msec) Channel 3 MAJESTIC-1 VELOCITY SURVEY TRACE DISPLAY AUXILIARY CHANNELS I I I 1 I I 0 20 40 60 80 100 Time (msec) Channel 1 i i i i i i 0 20 40 60 80 100 Time (msec) Channel 3 MAJESTIC-1 VELOCITY SURVEY TRACE DISPLAY AUXILIARY CHANNELS Datum One-way VELOCITIES Datum One-way VELOCITIES depth time(ms) Average RMS Interval depth time(ms) Average RMS Interval 5.0 2.6 1949 1949 1949 205.0 102.8 1995 2000 2086 10.0 5.1 1958 1958 1967 210.0 105.0 2000 2005 2212 15.0 7.6 1964 1964 1975 215.0 107.4 2002 2008 2118 20.0 10.2 1968 1968 1980 220.0 109.7 2005 2010 2107 25.0 12.7 1970 1970 1982 225.0 112.2 2005 2011 2036 30.0 15.2 1972 1973 1983 230.0 114.5 2009 2014 2192 35.0 17.7 1974 1974 1983 235.0 117.1 2007 2012 1917 40.0 20.3 1975 1975 1984 240.0 119.6 2007 2012 2020 45.0 22.8 1976 1976 1984 245.0 121.7 2013 2019 2369 50.0 25.3 1977 1977 1984 250.0 124.1

2015 2020 2080 55.0 27.8 1978 1978 1984 255.0 126.5 2016 2021 2062 60.0 30.3 1978 1978 1984 260.0 129.0 2015 2021 2002 65.0 32.9 1978 1978 1984 265.0 131.3 2018 2023 2142 70.0 35.4 1979 1979 1984 270.0 133.7 2019 2024 2084 75.0 37.9 1979 1979 1984 275.0 136.0 2022 2027 2202 80.0 40.4 1979 1979 1984 280.0 138.4 2024 2029 2135 85.0 42.9 1980 1980 1984 285.0 140.6 2027 2032 2197 90.0 45.5 1980 1980 1984 290.0 143.1 2026 2031 2004 95.0 48.0 1980 1980 1984 295.0 145.4 2030 2035 2241 100.0 50.5 1980 1980 1984 300.0 147.6 2033 2038 2228 105.0 53.0 1980 1980 1984 305.0 150.0 2033 2038 2043 110.0 55.5 1981 1981 1984 310.0 152.3 2036 2041 2261 115.0 58.1 1981 1981 1984 315.0 154.6 2037 2042 2103 120.0 60.6 1981 1981 1984 320.0 157.0 2038 2043 2088 125.0 63.1 1981 1981 1985 325.0 159.3 2040 2045 2162 130.0 65.6 1981 1981 1986 330.0 161.5 2043 2048 2292 135.0 68.6 1969 1970 1696 335.0 163.7 2046 2051 2257 140.0 70.9 1973 1974 2101 340.0 164.9 2062 2077 4472 145.0 73.7 1968 1969 1826 345.0 166.9 2067 2082 2417 150.0 76.3 1967 1968 1937 350.0 169.1 2070 2085 2321 155.0 78.8 1967 1968 1963 355.0 171.0 2075 2091 2548 160.0 81.3 1968 1969 2006 360.0 173.5 2075 2091 2066 165.0 83.5 1976 1978 2275 365.0 175.8 2076 2091 2159 170.0 85.3 1994 1999 2839 370.0 178.0 2079 2094 2302 175.0 87.6 1998 2003 2139 375.0 180.3 2080 2095 2132 180.0 90.1 1998 2003 2005 380.0 182.9 2077 2092 1889 185.0 92.5 2000 2005 2060 385.0 185.2 2079 2093 2188 190.0 94.8 2004 2009 2164 390.0 187.5 2080 2094 2206 195.0 97.4 2002 2007 1934 395.0 189.5 2084 2099 2454 200.0 100.4 1993 1998 1697 400.0 191.9 2084 2098 2087 Datum depth One-way time(ms) VELOCITIES Datum depth One-way time(ms) VELOCITIES Average RMS Interval Average RMS Interval 405.0 194.4 2084 2098 2056 605.0 275.7 2194 2218 3106 410.0 196.8 2084 2098 2071 610.0 277.4 2199 2224 3051 415.0 199.1 2085 2099 2194 615.0 279.1 2204 2229 2928 420.0 201.3 2086 2100 2180 620.0 280.7 2209 2235 3111 425.0 203.8 2085 2099 2047 625.0 282.4 2214 2241 3000 430.0 205.6 2091 2106 2727 630.0 284.0 2218 2246 3001 435.0 208.0 2091 2106 2109 635.0 285.7 2223 2251 3003 440.0 210.2 2093 2107 2262 640.0 287.3 2227 2256 3034 445.0 212.5 2094 2108 2179 645.0 289.0 2232 2262 3087 450.0 214.4 2099 2113 2645 650.0 290.6 2237 2267 3052 455.0 216.6 2101 2115 2253 655.0 292.2 2242 2272 3125 460.0 218.6 2105 2119 2575 660.0 293.8 2246 2278 3123 465.0 220.7 2107 2121 2297 665.0 295.4 2251 2284 3160 470.0 222.4 2113 2129 3018 670.0 297.1 2255 2288 2962 475.0 224.7 2114 2130 2177 675.0 298.7 2260 2293 3070 480.0 226.9 2115 2131 2203 680.0 300.0 2266 2301 3716 485.0 229.4 2114 2130 2059 685.0 301.7 2270 2306 3002 490.0 231.5 2116 2132 2339 690.0 303.3 2275 2311 3108 495.0 233.5 2120 2136 2584 695.0 304.9 2279 2316 3120 500.0 235.8 2120 2136 2128 700.0 306.5 2284 2321 3137 505.0 237.6 2125 2142 2792 705.0 308.5 2285 2322 2490 510.0 239.4 2130 2147 2721 710.0 310.4 2287 2324 2617 515.0 241.7 2131 2147 2198 715.0 312.4 2289 2326 2572 520.0 243.9 2132 2148 2248 720.0 314.3 2291 2327 2565 525.0 246.2 2132 2148 2184 725.0 316.3 2292 2328 2544 530.0 248.8 2131 2147 1973 730.0 318.2 2294 2331 2661 535.0 250.7 2134 2150 2586 735.0 320.1 2296 2333 2645 540.0 252.9 2135 2151 2246 740.0 322.0 2298 2334 2596 545.0 255.1 2136 2152 2253 745.0 323.8 2301 2337 2760 550.0 257.0 2140 2156 2616 750.0 325.7 2303 2339 2688 555.0 258.8 2144 2161 2801 755.0 327.5 2305 2341 2679 560.0 260.6 2149 2166 2798 760.0 329.4 2307 2343 2672 565.0 262.4 2153 2171 2779 765.0 331.4 2308 2344 2449 570.0

264.1 2158 2177 2982 770.0 333.6 2308 2344 2351 575.0 265.7 2164 2183 3013 775.0 335.8 2308 2343 2215 580.0 267.5 2168 2188 2872 780.0 338.1 2307 2342 2191 585.0 269.1 2174 2195 3074 785.0 340.4 2306 2341 2150 590.0 270.7 2180 2202 3166 790.0 342.8 2305 2339 2106 595.0 272.4 2184 2207 2855 795.0 344.9 2305 2339 2384 600.0 274.1 2189 2212 2984 800.0 347.0 2305 2339 2342 Datum depth One-way time(ms) VELOCITIES Average RMS Interval Datum depth One-way time(ms) VELOCITIES Average RMS Interval 805.0 349.1 2306 2340 2398 1005.0 424.8 2366 2399 2713 810.0 351.2 2307 2340 2425 1010.0 426.7 2367 2401 2702 815.0 353.3 2307 2340 2315 1015.0 428.5 2368 2402 2682 820.0 355.3 2308 2341 2491 1020.0 430.5 2370 2403 2602 825.0 357.4 2309 2342 2463 1025.0 432.3 2371 2404 2694 830.0 359.3 2310 2343 2529 1030.0 434.1 2373 2406 2810 835.0 361.3 2311 2344 2554 1035.0 436.0 2374 2407 2684 840.0 363.3 2312 2345 2454 1040.0 437.8 2375 2409 2687 845.0 365.4 2313 2345 2465 1045.0 439.7 2377 2410 2732 850.0 367.4 2314 2346 2494 1050.0 441.5 2379 2412 2785 855.0 369.3 2315 2347 2537 1055.0 443.3 2380 2413 2668 860.0 371.4 2316 2348 2488 1060.0 445.3 2380 2413 2508 865.0 373.3 2317 2349 2544 1065.0 447.2 2381 2414 2648 870.0 375.3 2318 2350 2495 1070.0 449.1 2383 2415 2632 875.0 377.3 2319 2351 2528 1075.0 450.9 2384 2417 2791 880.0 379.3 2320 2351 2454 1080.0 452.8 2385 2418 2582 885.0 381.5 2320 2352 2371 1085.0 454.7 2386 2418 2619 890.0 383.6 2320 2352 2351 1090.0 456.6 2387 2419 2635 895.0 385.7 2321 2352 2403 1095.0 458.4 2389 2421 2808 900.0 387.7 2321 2352 2405 1100.0 460.2 2390 2422 2761 905.0 389.7 2322 2353 2546 1105.0 462.0 2392 2424 2815 910.0 391.6 2324 2355 2653 1110.0 463.7 2394 2426 2928 915.0 393.5 2325 2356 2645 1115.0 465.4 2396 2428 2978 920.0 395.1 2328 2359 2994 1120.0 467.1 2398 2430 2941 925.0 396.6 2332 2364 3435 1125.0 468.7 2400 2433 3076 930.0 398.1 2336 2368 3328 1130.0 470.3 2402 2435 3073 935.0 399.7 2340 2372 3227 1135.0 472.0 2405 2438 3040 940.0 401.2 2343 2376 3277 1140.0 473.7 2407 2440 2931 945.0 402.7 2346 2380 3198 1145.0 475.3 2409 2442 3044 950.0 404.3 2350 2384 3206 1150.0 477.0 2411 2444 3039 955.0 406.3 2350 2384 2494 1155.0 478.6 2413 2447 3031 960.0 408.4 2351 2385 2420 1160.0 480.3 2415 2449 3027 965.0 410.3 2352 2386 2595 1165.0 482.0 2417 2451 2891 970.0 412.2 2353 2387 2607 1170.0 483.5 2420 2454 3282 975.0 413.8 2356 2390 3072 1175.0 485.2 2422 2456 3052 980.0 415.7 2358 2392 2760 1180.0 486.8 2424 2459 3178 985.0 417.4 2360 2393 2804 1185.0 488.4 2426 2461 3114 990.0 419.3 2361 2395 2736 1190.0 490.0 2429 2463 3113 995.0 421.2 2362 2396 2620 1195.0 491.6 2431 2466 3038 1000.0 423.0 2364 2398 2762 1200.0 493.2 2433 2468 3097 Datum depth One-way time(ms) VELOCITIES Datum depth One-way time(ms) VELOCITIES Average RMS Interval Average RMS Interval 1205.0 494.8 2435 2470 3128 1405.0 561.7 2501 2538 3240 1210.0 496.5 2437 2472 2941 1410.0 563.2 2504 2541 3438 1215.0 498.2 2439 2474 2900 1415.0 564.7 2506 2544 3336 1220.0 500.0 2440 2475 2808 1420.0 566.3 2508 2546 3187 1225.0 501.7 2441 2477 2910 1425.0 567.7 2510 2548 3420 1230.0 503.5 2443 2478 2901 1430.0 569.1 2513 2551 3523 1235.0 505.2 2445 2480 2930 1435.0 570.7 2515 2554 3320 1240.0 506.8 2447 2482 3027 1440.0 572.1 2517 2556 3511 1245.0 508.5 2449 2484 3047 1445.0 573.6 2519 2558 3255 1250.0 510.2 2450 2486 2974 1450.0 575.0 2522 2562 3661 1255.0 511.9 2452 2487 2935 1455.0 576.4 2524 2565 3546 1260.0 513.5 2454 2489 3055 1460.0 577.9 2527 2567 3422 1265.0 515.2 2455 2491 2880 1465.0 579.3 2529 2569 3361

1270.0 517.0 2457 2492 2840 1470.0 580.4 2533 2575 4877 1275.0 518.8 2458 2493 2823 1475.0 581.4 2537 2581 4946 1280.0 520.6 2459 2494 2704 1480.0 582.4 2541 2588 5103 1285.0 522.1 2461 2497 3253 1485.0 583.3 2546 2594 5070 1290.0 523.7 2463 2499 3243 1490.0 584.4 2550 2599 4648 1295.0 525.2 2466 2502 3215 1495.0 585.5 2554 2605 4781 1300.0 527.0 2467 2503 2860 1500.0 586.6 2557 2609 4466 1305.0 528.4 2470 2506 3666 1505.0 587.7 2561 2614 4368 1310.0 530.2 2471 2507 2703 1510.0 588.8 2565 2619 4649 1315.0 532.0 2472 2508 2712 1515.0 589.9 2568 2624 4722 1320.0 533.7 2473 2510 3079 1520.0 590.8 2573 2631 5091 1325.0 535.3 2475 2512 3082 1525.0 591.9 2577 2636 4834 1330.0 536.9 2477 2514 3113 1530.0 592.9 2580 2641 4732 1335.0 538.6 2479 2515 2940 1535.0 594.2 2583 2645 4092 1340.0 540.3 2480 2517 2934 1540.0 595.6 2586 2647 3409 1345.0 542.0 2481 2518 2929 1545.0 597.1 2588 2649 3493 1350.0 543.8 2483 2519 2858 1550.0 598.5 2590 2652 3574 1355.0 545.5 2484 2521 2885 1555.0 599.8 2592 2655 3687 1360.0 547.2 2485 2522 2854 1560.0 601.3 2595 2657 3463 1365.0 549.0 2486 2523 2895 1565.0 602.7 2597 2659 3426 1370.0 550.7 2488 2524 2928 1570.0 604.1 2599 2662 3514 1375.0 552.4 2489 2526 2947 1575.0 605.5 2601 2664 3558 1380.0 554.1 2491 2527 2955 1580.0 606.9 2603 2667 3670 1385.0 555.6 2493 2529 3199 1585.0 608.2 2606 2669 3724 1390.0 557.2 2495 2532 3264 1590.0 609.6 2608 2672 3654 1395.0 558.7 2497 2534 3225 1595.0 611.0 2610 2674 3534 1400.0 560.2 2499 2536 3360 1600.0 612.5 2612 2676 3461 Datum depth One-way time(ms) VELOCITIES Datum depth One-way time(ms) VELOCITIES Average RMS Interval Average RMS Interval 1605.0 613.9 2614 2679 3432 1805.0 665.2 2713 2795 4235 1610.0 615.3 2617 2681 3605 1810.0 666.3 2716 2798 4419 1615.0 616.7 2619 2683 3529 1815.0 667.4 2719 2802 4522 1620.0 618.3 2620 2684 3100 1820.0 668.5 2723 2806 4721 1625.0 619.8 2622 2686 3469 1825.0 669.6 2726 2810 4737 1630.0 621.2 2624 2689 3507 1830.0 670.6 2729 2814 4665 1635.0 622.7 2626 2691 3435 1835.0 671.6 2732 2818 4943 1640.0 624.1 2628 2693 3472 1840.0 672.7 2735 2822 4517 1645.0 625.6 2629 2694 3331 1845.0 673.8 2738 2826 4904 1650.0 627.0 2631 2697 3549 1850.0 674.8 2742 2831 4897 1655.0 628.4 2634 2699 3598 1855.0 675.9 2745 2834 4511 1660.0 629.8 2636 2701 3556 1860.0 677.0 2747 2838 4598 1665.0 631.2 2638 2704 3705 1865.0 678.1 2750 2841 4306 1670.0 632.5 2640 2706 3641 1870.0 679.4 2752 2843 3932 1675.0 633.8 2643 2709 3914 1875.0 680.5 2755 2847 4409 1680.0 635.1 2645 2712 4001 1880.0 681.7 2758 2850 4259 1685.0 636.3 2648 2716 4152 1885.0 682.9 2760 2853 4254 1690.0 637.6 2650 2718 3696 1890.0 684.0 2763 2856 4354 1695.0 638.9 2653 2721 3794 1895.0 685.1 2766 2860 4754 1700.0 640.2 2655 2724 3950 1900.0 686.2 2769 2863 4491 1705.0 641.4 2658 2727 4267 1905.0 687.5 2771 2865 3823 1710.0 642.5 2661 2731 4417 1910.0 688.7 2773 2868 4217 1715.0 643.8 2664 2734 3757 1915.0 689.9 2776 2871 4039 1720.0 645.3 2666 2736 3495 1920.0 691.0 2778 2874 4579 1725.0 646.5 2668 2739 4050 1925.0 692.2 2781 2878 4446 1730.0 647.8 2670 2741 3810 1930.0 693.2 2784 2882 4988 1735.0 649.2 2673 2744 3717 1935.0 694.3 2787 2885 4410 1740.0 650.4 2675 2747 4010 1940.0 695.8 2788 2886 3378 1745.0 651.7 2678 2750 4028 1945.0 696.9 2791 2889 4346 1750.0 653.0 2680 2752 3712 1950.0 698.1 2793 2892 4411 1755.0 654.2 2683 2755 4172 1955.0 699.2 2796 2895 4243 1760.0 655.4 2685 2758 4001 1960.0 700.4 2798 2898 4175 1765.0 656.5 2688 2762 4604 1965.0 701.6 2801 2901 4304 1770.0 657.7 2691 2766 4464 1970.0 702.8 2803 2903 4127 1775.0 658.7 2695 2770 4699 1975.0 704.1 2805 2905 4000 1780.0 659.7

2698 2775 4873 1980.0 705.3 2807 2908 3897 1785.0 660.9 2701 2779 4504 1985.0 706.5 2809 2910 4194 1790.0 661.9 2704 2783 4645 1990.0 707.9 2811 2912 3614 1795.0 663,0 2708 2787 4801 1995.0 709.2 2813 2914 3965 1800.0 664.0 2711 2791 4766 2000.0 710.4 2815 2916 3964 Datum depth One-way time(ms) VELOCITIES Datum depth One-way time(ms) VELOCITIES Average RMS Interval Average RMS Interval 2005.0 711.7 2817 2918 3972 2205.0 761.0 2898 3017 5432 2010.0 713.0 2819 2921 3992 2210.0 761.9 2901 3021 5359 2015.0 714.2 2821 2923 3900 2215.0 762.9 2903 3024 5120 2020.0 715.5 2823 2925 3918 2220.0 763.8 2906 3029 5493 2025.0 716.8 2825 2926 3773 2225.0 764.7 2910 3033 5568 2030.0 718.0 2827 2929 4331 2230.0 765.6 2913 3037 5574 2035.0 719.2 2830 2932 4122 2235.0 766.5 2916 3041 5448 2040.0 720.5 2831 2934 3847 2240.0 767.5 2919 3045 5266 2045.0 721.7 2834 2936 4131 2245.0 768.4 2922 3049 5503 2050.0 722.9 2836 2938 4090 2250.0 769.3 2925 3053 5551 2055.0 724.2 2838 2941 4031 2255.0 770.2 2928 3057 5369 2060.0 725.4 2840 2943 4030 2260.0 771.1 2931 3061 5451 2065.0 726.7 2842 2945 3831 2265.0 772.0 2934 3065 5588 2070.0 727.9 2844 2947 4131 2270.0 772.9 2937 3069 5420 2075.0 729.1 2846 2950 4421 2275.0 773.8 2940 3073 5799 2080.0 730.3 2848 2952 4177 2280.0 774.7 2943 3077 5662 2085.0 731.4 2851 2955 4297 2285.0 775.6 2946 3081 5492 2090.0 732.6 2853 2958 4345 2290.0 776.5 2949 3085 5406 2095.0 733.7 2855 2960 4367 2295.0 777.4 2952 3089 5513 2100.0 735.5 2855 2960 2798 2300.0 778.3 2955 3093 5577 2105.0 737.4 2855 2959 2659 2305.0 779.2 2958 3097 5798 2110.0 739.4 2854 2958 2521 2310.0 780.1 2961 3101 5589 2115.0 741.2 2853 2957 2699 2315.0 781.0 2964 3106 5637 2120.0 743.1 2853 2957 2641 2320.0 781.9 2967 3110 5592 2125.0 745.2 2852 2955 2424 2325.0 782.8 2970 3113 5412 2130.0 747.1 2851 2955 2655 2330.0 783.7 2973 3117 5439 2135.0 748.0 2854 2959 5488 2335.0 785.7 2972 3116 2524 2140.0 748.9 2857 2963 5289 2340.0 787.9 2970 3113 2218 2145.0 749.8 2861 2968 5596 2345.0 789.8 2969 3112 2662 2150.0 750.8 2864 2972 5319 2350.0 791.1 2971 3114 3911 2155.0 751.7 2867 2976 5414 2355.0 792.4 2972 3115 3915 2160.0 752.6 2870 2980 5447 2360.0 793.9 2973 3116 3396 2165.0 753.5 2873 2985 5469 2365.0 795.4 2973 3116 3314 2170.0 754.4 2876 2989 5312 2370.0 796.9 2974 3117 3323 2175.0 755.4 2879 2993 5420 2375.0 798.2 2975 3118 3682 2180.0 756.3 2883 2997 5528 2380.0 799.5 2977 3119 3937 2185.0 757.2 2886 3001 5244 2385.0 800.8 2978 3120 3715 2190.0 758.1 2889 3005 5490 2390.0 803.5 2975 3117 1912 2195.0 759.1 2892 3009 5439 2395.0 806.0 2971 3114 1934 2200.0 760.1 2894 3013 4950 2400.0 807.5 2972 3115 3526 Well: MAJESTIC NO. 1 Client: MIM Survey units : METRES Datum : 165 Calibrated sonic velocities used from 135.0 to 2500.0 Datum One-way VELOCITIES depth time(ms) Average RMS Interval 2405.0 808.8 2974 3116 3727 2410.0 809.8 2976 3119 5010 2415.0 811.8 2975 3118 2553 2420.0 812.8 2977 3120 4704 2425.0 813.9 2979 3123 4643 2430.0 814.9 2982 3126 5219 2435.0 815.8 2985 3129 5046 2440.0 816.9 2987 3132 4938 2445.0 817.8 2990 3135 5163 2450.0 818.8 2992 3138 4892 2455.0 819.9 2994 3141 4763 2460.0 821.0 2996 3143 4617 2465.0 822.5 2997 3143 3359 2470.0 823.9 2998 3144 3438 2475.0 824.8 3001 3148 5475 2480.0 825.7 3003 3151 5653 2485.0 826.6 3006 3155 5825 2490.0 827.4 3009 3160 6104 2495.0 828.2 3013 3164 6231 >MPANY: MINI WELL : MAJESTIC NO. 1 Elevations : Datum : 0 Ground : : 159 Kelly: 165 Times : MILLISECONDS Shot data : Location Elevation Offset Rig identification : MAJESTIC-1 A 159.0 13.5 Energy source : POWERGEL B 158.8 27.0 Logger: C 158.7 41.0 Elevation

velocity D 158.0 41.0 for shot statics : 675 E 159.0 27.0 Instrument delay : 0.0 msec F 158.0 41.0 Latitude : 26-39-59.49 S Longitude : 142-42-54.14 E Survey date : 1&JUN-94 Survey units : METRES SHOT CALCULATIONS : Shot Geophone depth Shot Shot no. Kelly - Datum Loen Depth TIMES Record Corr. Avg. Datum Check shot interval distance time Velocities Average RMS Interval 29 45.0 -120.0 E 0.5 39.0 33.1 30 45.0 -120.0 A 0.5 34.5 33.9 31 45.0 -120.0 B 0.5 41.0 35.0 32 45.0 -120.0 C 0.5 45.5 32.4 33 45.0 -120.0 C 0.5 45.5 32.4 34 45.0 -120.0 F 0.5 45.0 33.0 35 45.0 -120.0 F 0.5 45.0 33.0 36 85.0 -80.0 F 0.5 59.0 55.1 37 125.0 -40.0 F 0.5 78.0 76.7 DATUM 38 165.0 0.0 F 0.5 96.5 96.5 39 165.0 0.0 F 0.5 96.0 96.0 40 165.0 0.0 B 0.5 97.0 97.3 n/u 41 165.0 0.0 C 0.5 96.5 95.2 95.9 0.0 28 314.0 149.0 D 0.8 171.0 171.0 171.0 75.1 149.0 75.1 1984.0 1984.0 1984.0 Check shot interval distance time Velocities Average RMS Interval Shot Geophone depth Shot Shot no. Kelly - Datum Loen Depth TIMES Record Corr. Avg. Datum 182.0 86.6 2101.6 27 496.0 331.0 D 0.8 257.0 257.6 257.6 161.7 2047.0 2047.8 217.0 95.3 2277.0 26 713.0 548.0 D 0.8 352.0 352.9 352.9 257.0 2132.3 2135.7 156.0 51.1 3052.8 25 869.0 704.0 D 0.8 403.0 404.0 404.0 308.1 2285.0 2313.1 216.0 87.1 2479.9 24 1085.0 920.0 D 0.8 490.0 491.1 491.1 395.2 2327.9 2350.9 33.0 10.0 3300.0 23 1118.0 953.0 D 0.8 500.0 501.1 501.1 405,2 2351.9 2378.9 137.0 51.1 2681.0 22 1255.0 1090.0 D 0.8 551.0 552.2 552.2 456.3 2388.8 2414.6 Cadna-Owie FM 2 1451.0 1286.0 D 0.7 617.0 618.2 21 1451.0 1286.0 D 0.8 621.0 622.2 n/u 196.0 66.1 2965.2 42 1451.0 1286.0 F 0.5 615.5 618.4 618.3 522.4 2461.7 2491.0 98.0 33.0 2969.7 20 1549.0 1384.0 D 0.8 650.0 651.3 651.3 555.4 2491.9 2522.0 84.0 25.0 3360.0 19 1633.0 1468.0 D 0.8 675.0 676.3 676.3 580.4 2529.3 2563.7 67.0 14.0 4785.7 18 1700.0 1535.0 D 0.8 689.0 690.3 690.3 594.4 2582.4 2637.7 105.0 30.0 3500.0 16 1805.0 1640.0 D 0.8 719.0 720.3 720.3 624.4 2626.5 2685.4 Birkhead FM 32.0 9.0 3555.6 15 1837.0 1672.0 D 0.8 728.0 729.3 729.3 633.4 2639.7 2699.8 Hutton Sandstone 13 1926.0 1761.0 D 0.8 751.0 752.3 Poolawanna FM 0.8 773.0 774.3 774.3 678.4 105.0 22.5 2750.6 2836.6 4666.7 12 2031.0 1866.0 D Gillpeppee FM 10 2108.0 1943.0 D 0.8 792.0 793.3 11 2108.0 1943.0 D 0.8 795.0 796.3 n/u 77.0 18.1 4254.1 43 2108.0 1943.0 F 0.5 788.5 791.5 792.4 696.5 2789.7 2882.3 155.0 37.9 4089.7 9 2263.0 2098.0 D 0.8 829.0 830.3 830.3 734.4 2856.8 2956.7 34.0 13.0 2615.4 8 2297.0 2132.0 D 0.8 842.0 843.3 843.3 747.4 2852.6 2951.1 Toolachee FM 7 2498.0 2333.0 D 0.7 878.0 879.4 44 2498.0 2333.0 F 0.6 876.5 879.6 201.0 36.9 5447.2 45 2498.0 2333.0 F 0.6 878.5 881.6 880.2 784.3 2974.6 3113.7 54.0 17.2 3139.5 6 2552.0 2387.0 D 0.7 896.0 897.4 897.4 801.5 2978.2 3114.3 22.0 8.0 2750.0 5 2574.0 2409.0 D 0.7 904.0 905.4 905.4 809.5 2975.9 3110.9 54.0 12.0 4500.0 4 2628.0 2463.0 D 0.7 916.0 917.4 917.4 821.5 2998.2 3135.6 10.0 3.0 3333.3 3 2638.0 2473.0 D 0.7 919.0 920.4 920.4 824.5 2999.4 3136.4 46 2665.0 2500.0 F 0.6 922.0 925.1 47 2665.0 2500.0 F 0.7 922.0 925.1 27.0 4.5 5956.0 48 2665.0 2500.0 F 0.7 921.5 924.6 924.9 829.0 3015.6 3158.6 Shot Geophone depth Shot Shot TIMES Check shot interval no. Kelly - Datum Loen Depth Record - Corr. Avg. — — Datum distance time 89.0 22.5 14 1926.0 1761.0 D 0.8 750.0 751.3 751.8 655.9 JOT CALCULATIONS : (cont) Velocities Average RMS Interval 3955.6 2684.9 2752.4 COMPANY : MIM WELL : MAJESTIC NO. 1 Latitude : 26-39-59.49 S Longitude : 142-42-54.14 E Survey date : 16-JUN-94 Survey units : METRES Elevations : Datum : 0 Ground : 159 Kelly : 165 Times : MILLISECONDS SONIC DRIFT : Geophone Kelly — depth Datum Check shot times Average - Below Datum Check shot interval Distance - Time Sonic Int. time Interval sonic

drift usec/m - msec Cumulative drift msec 45.0 -120.0 33.3 -62.6 85.0 -80.0 55.1 -40.8 125.0 -40.0 76.7 -19.2 DATUM 165.0 0.0 95.9 0.0 149.0 75.1 314.0 149.0 171.0 75.1 182.0 86.6 86.0 3.30 0.6 0.6 496.0 331.0 257.6 161.7 217.0 95.3 90.0 24.42 5.3 5.9 713.0 548.0 352.9 257.0 156.0 51.1 55.6 -28.85 -4.5 1.4 869.0 704.0 404.0 308.1 216.0 87.1 83.4 17.13 3.7 5.1 1085.0 920.0 491.1 395.2 33.0 10.0 12.4 -72.73 -2.4 2.7 1118.0 953.0 501.1 405.2 137.0 51.1 50.1 7.30 1.0 3.7 1255.0 1090.0 552.2 456.3 196.0 66.1 68.0 -9.69 -1.9 1.8 Cadna-Owie EM 1451.0 1286.0 618.3 522.4 98.0 33.0 29.2 38.78 3.8 5.6 1549.0 1384.0 651.3 555.4 84.0 25.0 22.7 27.38 2.3 7.9 1633.0 1468.0 676.3 580.4 Geophone Kelly — depth Datum Check shot times Average - Below Datum Check shot interval Distance - Time Sonic Int. time Interval sonic drift usec/m - msec Cumulative drift msec 1633.0 1468.0 676.3 580.4 67.0 14.0 17.0 -44.78 -3.0 4.9 1700.0 1535.0 690.3 594.4 105.0 30.0 27.1 27.62 2.9 7.8 1805.0 1640.0 720.3 624.4 k 32.0 9.0 7.9 34.37 1.1 8.9 Birkhead FM 1837.0 1672.0 729.3 633.4 89.0 22.5 24.7 -24.72 -2.2 6.7 Hutton Sandstone 1926.0 1761.0 751.8 655.9 105.0 22.5 25.2 -25.71 -2.7 4.0 Poolawanna FM 2031.0 1866.0 774.3 678.4 77.0 18.1 19.2 -14.29 -1.1 2.9 Gillpeppee FM 2108.0 1943.0 792.4 696.5 155.0 37.9 37.3 3.87 0.6 3.5 2263.0 2098.0 830.3 734.4 34.0 13.0 7.7 155.88 5.3 8.8 2297.0 2132.0 843.3 747.4 201.0 36.9 44.1 -35.82 -7.2 1.6 Toolachee FM 2498.0 2333.0 880.2 784.3 54.0 17.2 14.9 42.59 2.3 3.9 2552.0 2387.0 897.4 801.5 22.0 8.0 6.4 72.73 1.6 5.5 2574.0 2409.0 905.4 809.5 54.0 12.0 12.8 -14.81 -0.8 4.7 2628.0 2463.0 917.4 821.5 10.0 3.0 2.2 80.00 0.8 5.5 2638.0 2473.0 920.4 824.5 Geophone depth Check shot times Kelly — Datum Average - Below Datum 2638.0 2473.0 920.4 824.5 2665.0 2500.0 924.9 829.0 Check shot interval Distance - Time 27.0 4.5 Sonic Int. time Interval sonic drift Cumulative usec/m - msec drift msec 5.2 -24.69 -0.7 4.8 COMPANY: M1M Survey units : METRES Times : MILLISECONDS WELL : MAJESTIC NO. 1 Latitude : 26-39-59.49 S Longitude : 142-42-54.14 E Survey date : 16-JUN-94 Elevations : Datum : 0 Ground : 159 Kelly: 165 SONIC CALIBRATION : Geophone depth Interval Original sonic times Adjusted sonic times Velocities Kelly — Datum Distance Interval - Cumulative Interval - Calibrated Average - RMS — — Interval DATUM 165.0 0.0 149.0 1984.0 314.0 149.0 182.0 86.0 86.6 1984.0 1984.0 2101.6 496.0 331.0 217.0 90.0 86.0 95.3 161.7 2047.0 2047.8 2277.0 713.0 548.0 156.0 55.6 176.0 51.1 257.0 2132.3 2135.7 3052.8 869.0 704.0 216.0 83.4 231.6 87.1 308.1 2285.0 2313.1 2479.9 1085.0 920.0 33.0 12.4 315.0 10.0 395.2 2327.9 2350.9 3300.0 1118.0 953.0 137.0 50.1 327.4 51.1 405.2 2351.9 2378.9 2681.0 1255.0 1090.0 196.0 68.0 377.5 66.1 456.3 2388.8 2414.6 2965.2 Cadna-Owie FM 1451.0 1286.0 98.0 29.2 445.5 33.0 522.4 2461.7 2491.0 2969.7 1549.0 1384.0 474.7 555.4 2491.9 2522.0 7.0 2.0 2.2 3178.0 Murta Member 1556.0 1391.0 476.7 557.6 2494.6 2524.9 54.0 14.6 16.1 3358.4 Namur Sandstone 1610.0 1445.0 491.3 573.7 2518.8 2552.0 SONIC CALIBRATION : (cont) Geophone depth Kelly — Datum Interval Distance Original sonic times Interval - Cumulative Adjusted sonic times Interval - Calibrated Average - - Velocities - RMS — Interval Namur Sandstone 1610.0 1445.0 23.0 6.1 6.7 2518.8 2552.0 3423.6 1633.0 1468.0 67.0 17.0 497.4 14.0 580.4 2529.3 2563.8 4785.7 1700.0 1535.0 10.0 2.7 514.4 3.0 594.4 2582.4 2637.7 3345.7 Westbourne FM 1710.0 1545.0 95.0 24.4 517.1 27.0 597.4 2586.3 2641.7 3517.1 1805.0 1640.0 11.0 2.8 541.5 3.2 624.4 2626.5 2685.5 3448.5 Adori Sandstone 1816.0 1651.0 21.0 5.1 544.3 5.8 627.6 2630.7 2689.9 3614.3 Birkhead FM 1837.0 1672.0 89.0 24.7 549.4 22.5 633.4 2639.7 2699.8 3955.6 Hutton Sandstone 1926.0

1761.0 105.0 25.2 574.1 22.5 655.9 2684.9 2752.4 4666.7 Poolawanna FM 2031.0 1866.0 77.0 19.2 599.3 18.1 678.4 2750.6 2836.7 4254.1 Gillpeppee FM 2108.0 1943.0 84.5 20.5 618.5 20.8 696.5 2789.7 2882.4 4056.7 Intra Gillpeppee FM 1 2192.5 2027.5 42.5 10.4 639.0 10.6 717.3 2826.5 2923.1 4021.8 Doonmulla Sandstone 2235.0 2070.0 649.4 727.9 2843.8 2942.0 SONIC CALIBRATION : (cont) Geophone depth Kelly — Datum Interval Distance Original sonic times Interval - Cumulative Adjusted sonic times Interval - Calibrated : Velocities Average RMS Interval Doonmulla Sandstone 2235.0 2070.0 28.0 6.4 6.5 2843.8 2942.0 4305.8 2263.0 2098.0 655.8 734.4 2856.8 2956.8 11.0 2.4 4.1 2714.7 Arrabury FM 2274.0 2109.0 658.2 738.5 2856.0 2955.6 23.0 5.3 8.9 2570.4 2297.0 2132.0 663.5 747.4 2852.6 2951.3 201.0 44.1 36.9 5447.2 Toolachee FM 2498.0 2333.0 54.0 14.9 707.6 17.2 784.3 2974.6 3113.9 3139.5 2552.0 2387.0 722.5 801.5 2978.2 3114.4 22.0 6.4 8.0 2750.0 2574.0 2409.0 728.9 809.5 2975.9 3111.0 32.0 8.1 7.6 4214.0 Basement 2606.0 2441.0 737.0 817.1 2987.4 3123.1 22.0 4.7 4.4 4992.9 2628.0 2463.0 741.7 821.5 2998.2 3136.1 10.0 2.2 3.0 3333.3 2638.0 2473.0 743.9 824.5 2999.4 3136.8 27.0 5956.0 2665.0 2500.0 3015.6 3159.1 Shot 2 Location : DOI Charge depth 0.7 Size 2.0 Phone depth : 1451.0 Arrival time : 617.0 msec Shot 3 Location : DOI Charge depth 0.7 Size 2.0 Phone depth : 2638.0 Arrival time : 919.0 msec Shot 4 Location : DOI Charge depth 0.7 Size 2.0 Phone depth : 2628.0 Arrival time : 916.0 msec Shot 5 Location : DOI Charge depth 0.7 Size 2.0 Phone depth : 2574.0 Arrival time : 904.0 msec -25 -20 -15 -10 10 Arrival offset time (msec) 20 Shot 6 Location : DOI Charge depth 0.7 Size 2.0 2^ Phone depth : 2552.0 Arrival time : 896.0 msec SHOT 2 SHOT 3 SHOT 4 SHOT 5 SHOT 6 Time Ampl Time Ampl Time Ampl Time Ampl Time Ampl 595.0 0.05 897.0 0.00 894.0 0.02 882.0 0.02 874.0 0.02 596.0 0.01 898.0 0.01 895.0 0.01 883.0 0.02 875.0 0.01 597.0 -0.01 899.0 0.00 896.0 0.01 884.0 -0.02 876.0 0.01 598.0 0.02 900.0 0.00 897.0 0.00 885.0 -0.07 877.0 0.02 599.0 0.06 901.0 -0.01 898.0 0.00 886.0 -0.05 878.0 0.02 600.0 0.05 902.0 -0.01 899.0 -0.01 887.0 0.01 879.0 0.02 601.0 0.03 903.0 0.00 900.0 -0.01 888.0 0.05 880.0 0.01 602.0 0.04 904.0 0.02 901.0 -0.01 889.0 0.03 881.0 0.00 603.0 0.05 905.0 0.03 902.0 -0.01 890.0 0.01 882.0 0.01 604.0 0.05 906.0 ■0.02 903.0 0.01 891.0 -0.02 883.0 0.01 605.0 0.03 907.0 0.01 904.0 0.02 892.0 0.00 884.0 0.01 606.0 0.00 908.0 -0.01 905.0 0.02 893.0 0.03 885.0 0.02 607.0 0.02 909.0 -0.02 906.0 0.01 894.0 0.02 886.0 0.02 608.0 0.04 910.0 -0.02 907.0 0.01 895.0 -0.02 887.0 0.01 609.0 0.03 911.0 0.00 908.0 0.02 896.0 -0.04 888.0 0.00 610.0 0.03 912.0 0.01 909.0 0.00 897.0 -0.01 889.0 -0.01 611.0 0.04 913.0 0.00 910.0 0.00 898.0 0.03 890.0 -0.01 612.0 0.05 914.0 0.00 911.0 0.00 899.0 0.04 891.0 0.00 613.0 0.04 915.0 0.02 912.0 0.00 900.0 0.00 892.0 0.01 614.0 0.02 916.0 0.01 913.0 -0.02 901.0 -0.03 893.0 0.01 615.0 0.03 917.0 -0.02 914.0 -0.02 902.0 -0.03 894.0 0.00 616.0 0.06 918.0 -0.02 915.0 -0.02 903.0 -0.01 895.0 0.00 617.0 0.04 919.0 -0.02 916.0 -0.02 904.0 -0.03 896.0 0.00 618.0 -0.03 920.0 -0.04 917.0 -0.04 905.0 -0.09 897.0 -0.02 619.0 -0.16 921.0 -0.11 918.0 -0.09 906.0 -0.16 898.0 -0.06 620.0 -0.34 922.0 -0.20 919.0 -0.15 907.0 -0.23 899.0 -0.11 621.0 -0.74 923.0 -0.32 920.0 -0.21 908.0 -0.31 900.0 -0.20 622.0 -1.46 924.0 -0.49 921.0 -0.28 909.0 -0.44 901.0 -0.31 623.0 -2.60 925.0 -0.66 922.0 -0.43 910.0 -0.67 902.0 -0.51 624.0 -4.19 926.0 -0.86 923.0 -0.61 911.0 -0.98 903.0 -0.78 625.0 -6.44 927.0 -1.09 924.0 -0.80 912.0 -1.31 904.0 -1.16 626.0 -8.89 928.0 -1.34 925.0 -0.98 913.0 -1.64 905.0 -1.59 627.0 -11.34 929.0 1.57 926.0 -1.18 ■914.0 -1.99 906.0 -2.05 628.0 -13.58 930.0 -1.77 927.0 -1.40 915.0 -2.36 907.0 -2.56 629.0 -

15.27 931.0 1.94 928.0 -1.61 916.0 -2.69 908.0 -3.07 630.0 -15.81 932.0 -2.08 929.0 -1.77 ■917.0 -2.94 909.0 -3.54 631.0 -15.37 933.0 -2.15 930.0 -1.87 918.0 -3.07 910.0 -3.84 632.0 -14.56 934.0 -2.15 931.0 -1.94 919.0 -3.10 911.0 -4.08 633.0 -12.45 935.0 -2.07 932.0 -1.96 920.0 -3.03 912.0 -4.12 634.0 -9.58 936.0 -1.92 933.0 -1.92 921.0 -2.85 913.0 -3.96 635.0 -6.18 937.0 -1.69 934.0 1.80 922.0 -2.53 914.0 -3.63 636.0 -2.30 938.0 -1.40 935.0 -1.63 ■923.0 -2.06 915.0 -3.10 637.0 1.45 939.0 -1.05 936.0 -1.38 924.0 -1.48 916.0 -2.38 638.0 5.01 940.0 -0.66 937.0 -1.07 925.0 -0.89 917.0 -1.53 639.0 8.60 941.0 -0.12 938.0 -0.72 926.0 -0.08 918.0 -0.69 Arrival offset time (msec) Shot 7 Location : D01 Charge depth 0.7 Size 2.0 Phone depth : 2498.0 Arrival time : 878.0 msec Shot 8 Location : D01 Charge depth 0.75 Size 1.5 Phone depth : 2297.0 Arrival time : 842.0 msec Shot 9 Location : D01 Charge depth 0.75 Size 1.5 Phone depth : 2263.0 Arrival time : 829.0 msec Shot 10 Location : DOI Charge depth 0.75 Size 1.5 Phone depth : 2108.0 Arrival time : 792.0 msec Shot 11 Location : DOI Charge depth 0.75 Size 1.5 2i Phone depth : 2108.0 Arrival time : 795.0 msec SHOT 7 SHOT 8 SHOT 9 SHOT 10 SHOT 11 Time Ampi Time Ampi Time Amp! Time Ampi Time Ampi 856.0 -0.01 820.0 0.01 807.0 -0.02 770.0 -0.01 773.0 0.04 857.0 -0.02 821.0 0.00 808.0 0.02 771.0 -0.01 774.0 0.06 858.0 -0.01 822.0 -0.02 809.0 0.05 772.0 -0.01 775.0 0.04 859.0 -0.02 823.0 -0.03 810.0 0.01 773.0 -0.02 776.0 -0.03 860.0 -0.04 824.0 -0.02 811.0 -0.01 774.0 -0.02 777.0 -0.07 861.0 -0.04 825.0 -0.02 812.0 0.02 775.0 0.00 778.0 -0.02 862.0 -0.01 826.0 -0.02 813.0 0.02 776.0 0.00 779.0 0.05 863.0 -0.01 827.0 -0.02 814.0 -0.02 777.0 -0.02 780.0 0.00 864.0 -0.04 828.0 -0.04 815.0 -0.03 778.0 -0.03 781.0 -0.10 865.0 -0.05 829.0 -0.03 816.0 -0.01 779.0 -0.04 782.0 -0.09 866.0 -0.03 830.0 -0.01 817.0 -0.02 780.0 -0.04 783.0 0.04 867.0 0.00 831.0 0.00 818.0 -0.03 781.0 -0.03 784.0 0.20 868.0 0.01 832.0 0.00 819.0 0.00 782.0 -0.03 785.0 0.18 869.0 0.00 833.0 -0.01 820.0 0.01 783.0 -0.03 786.0 -0.02 870.0 -0.03 834.0 -0.01 821.0 0.03 784.0 -0.02 787.0 -0.25 871.0 -0.03 835.0 0.00 822.0 0.04 785.0 -0.01 788.0 -0.19 872.0 -0.02 836.0 0.00 823.0 0.02 786.0 -0.01 789.0 0.05 873.0 0.00 837.0 -0.01 824.0 0.00 787.0 0.00 790.0 0.24 874.0 0.00 838.0 -0.05 825.0 0.01 788.0 0.01 791.0 0.10 875.0 -0.01 839.0 -0.07 826.0 0.01 789.0 0.01 792.0 -0.20 876.0 -0.02 840.0 -0.07 827.0 0.00 790.0 0.00 793.0 -0.29 877.0 -0.02 841.0 -0.08 828.0 -0.01 791.0 0.00 794.0 -0.10 878.0 -0.06 842.0 -0.07 829.0 -0.01 792.0 0.00 795.0 0.03 879.0 -0.15 843.0 -0.17 830.0 -0.02 793.0 -0.02 796.0 -0.12 880.0 -0.23 844.0 -0.27 831.0 -0.04 794.0 -0.05 797.0 -0.37 881.0 -0.22 845.0 -0.41 832.0 -0.06 795.0 -0.08 798.0 -0.60 882.0 -0.16 846.0 -0.57 833.0 -0.12 796.0 -0.04 799.0 -0.66 883.0 -0.17 847.0 -0.77 834.0 -0.20 797.0 -0.10 800.0 -0.73 884.0 -0.26 848.0 -1.13 835.0 -0.27 798.0 -0.17 801.0 -1.07 885.0 -0.41 849.0 -1.44 836.0 -0.35 799.0 -0.25 802.0 -1.59 886.0 -0.55 850.0 -1.77 837.0 -0.51 800.0 -0.38 803.0 -2.12 887.0 -0.75 851.0 -2.07 838.0 -0.75 801.0 -0.53 804.0 -2.47 888.0 -1.12 852.0 -2.31 839.0 -1.02 802.0 -0.71 805.0 -2.68 889.0 -1.56 853.0 2.50 840.0 -1.29 803.0 -0.94 806.0 -2.95 890.0 -■1.98 854.0 -2.62 841.0 -1.62 804.0 -1.33 807.0 -3.32 891.0 -2.41 855.0 -2.65 842.0 -1.99 805.0 -1.59 808.0 -3.58 892.0 -2.90 856.0 -2.54 843.0 -2.29 806.0 -1.85 809.0 -3.54 893.0 -3.41 857.0 -2.31 844.0 -2.50 807.0 -2.12 810.0 -3.19 894.0 -3.83 858.0 -1.96 845.0 -2.67 808.0 -2.34 811.0 -2.68 895.0 -4.01 859.0 -1.52 846.0 -2.78 809.0 -2.46 812.0 -2.16 896.0 -4.10 860.0 -0.93 847.0 -2.74 810.0 2.50 813.0 -1.64 897.0 -4.04 861.0 -0.36 848.0 -2.57 ■811.0 -2.46 814.0 -0.92 898.0 -3.84 862.0 0.26 849.0 -2.31 812.0 -2.30 815.0 0.01 899.0 -3.38 863.0 0.89 850.0 -1.91 813.0 -2.03 816.0 0.84 900.0 -2.73 864.0 1.43 851.0 -1.39 814.0

-1.67 817.0 1.78 20 Shot 12 Location : DOI Charge depth 0.75 Size 1.5 Phone depth : 2031.0 Arrival time : 773.0 msec Shot 13 Location : DOI Charge depth 0.75 Size 1.5 Phone depth : 1926.0 Arrival time : 751.0 msec Shot 14 Location : DOI Charge depth 0.75 Size 1.5 Phone depth : 1926.0 Arrival time : 750.0 msec Shot 15 Location : DOI Charge depth 0.75 Size 1.5 Phone depth : 1837.0 Arrival time : 728.0 msec -25 -20 -15 -10 10 Arrival offset time (msec) Shot 16 Location : DOI Charge depth 0.75 Size 1.5 2^ Phone depth : 1805.0 Arrival time : 719.0 msec SHOT 12 SHOT 13 SHOT 14 SHOT 15 SHOT 16 Time Ampi Time Ampi Time Ampi Time Ampi Time Ampi 751.0 0.08 729.0 0.02 728.0 -0.07 706.0 -0.05 697.0 0.06 752.0 0.14 730.0 0.22 729.0 -0.10 707.0 -0.06 698.0 0.08 753.0 0.06 731.0 0.39 730.0 -0.05 708.0 -0.05 699.0 0.04 754.0 -0.16 732.0 0.49 731.0 0.04 709.0 -0.03 700.0 -0.10 755.0 -0.11 733.0 0.32 732.0 0.04 710.0 0.02 701.0 -0.14 756.0 0.15 734.0 -0.18 733.0 -0.04 711.0 0.06 702.0 -0.02 757.0 0.18 735.0 -0.49 734.0 -0.06 712.0 0.06 703.0 0.15 758.0 -0.08 736.0 -0.56 735.0 0.01 713.0 0.02 704.0 0.16 759.0 -0.24 737.0 -0.59 736.0 0.06 714.0 -0.01 705.0 -0.02 760.0 -0.04 738.0 -1.09 737.0 0.02 715.0 -0.02 706.0 -0.21 761.0 0.18 739.0 -1.38 738.0 -0.04 716.0 -0.03 707.0 -0.16 762.0 0.16 740.0 -0.81 739.0 -0.02 717.0 -0.04 708.0 0.05 763.0 -0.03 741.0 0.25 740.0 0.03 718.0 -0.03 709.0 0.21 764.0 -0.17 742.0 0.26 741.0 0.05 719.0 0.02 710.0 0.11 765.0 -0.09 743.0 -0.62 742.0 0.00 720.0 0.12 711.0 -0.13 766.0 0.05 744.0 -1.05 743.0 -0.04 721.0 0.18 712.0 -0.21 767.0 0.12 745.0 -0.87 744.0 -0.04 722.0 0.19 713.0 0.01 768.0 0.02 746.0 -0.39 745.0 0.00 723.0 0.13 714.0 0.24 769.0 -0.11 747.0 -0.23 746.0 0.01 724.0 0.03 715.0 0.15 770.0 -0.13 748.0 -0.35 747.0 -0.02 725.0 -0.08 716.0 -0.27 771.0 -0.08 749.0 -0.46 748.0 -0.06 726.0 -0.24 717.0 -0.43 772.0 -0.02 750.0 -0.41 749.0 -0.06 727.0 -0.38 718.0 -0.27 773.0 0.01 7510 -0.35 750.0 -0.05 728.0 -0.55 719.0 0.00 774.0 -■0.08 752.0 -0.55 751.0 -0.09 729.0 -0.76 720.0 -0.29 775.0 -0.23 753.0 -1.12 752.0 -0.22 730.0 -1.14 721.0 -0.84 776.0 -0.35 754.0 -1.58 753.0 -0.38 731.0 -1.57 722.0 -1.62 777.0 -0.41 755.0 -1.64 754.0 -0.62 732.0 -2.12 723.0 -1.93 778.0 -0.52 756.0 -1.60 755.0 -0.91 733.0 -2.82 724.0 -2.05 779.0 -0.83 757.0 -1.85 756.0 -1.32 734.0 -3.65 725.0 -2.49 780.0 -1.14 758.0 -2.35 757.0 -1.81 735.0 -4.47 726.0 -3.48 781.0 -1.28 759.0 -2.93 758.0 -2.38 736.0 -5.38 727.0 -4.50 782.0 -1.53 760.0 -3.67 759.0 -2.97 737.0 -6.06 728.0 -5.18 783.0 -2.11 761.0 -4.88 760.0 -3.55 738.0 -6.42 729.0 -5.25 784.0 -2.84 762.0 -6.93 761.0 -3.98 739.0 -6.47 730.0 -5.16 785.0 -3.37 763.0 -7.93 762.0 -4.35 740.0 -6.21 731.0 -5.28 786.0 -3.60 764.0 -6.49 763.0 -4.56 741.0 -5.61 732.0 -5.41 787.0 -3.74 765.0 -4.61 764.0 -4.57 742.0 -4.67 733.0 -4.96 788.0 -3.87 766.0 -4.34 765.0 -4.32 743.0 -3.36 734.0 -3.78 789.0 -3.98 767.0 -4.66 766.0 -3.82 744.0 -1.84 735.0 -2.37 790.0 -3.69 768.0 -3.64 767.0 -3.08 745.0 -0.35 736.0 -1.21 791.0 -3.03 769.0 -1.59 768.0 -2.24 746.0 1.28 737.0 -0.31 792.0 -2.40 770.0 0.09 769.0 -1.30 747.0 2.74 738.0 0.84 793.0 -1.89 771.0 0.83 770.0 -0.34 748.0 4.07 739.0 2.42 794.0 -1.14 772.0 1.46 771.0 0.80 749.0 5.37 740.0 3.85 795.0 0.06 773.0 2.44 772.0 2.00 750.0 6.60 741.0 5.02 Arrival offset time (msec) Shot 18 Location : DOI Charge depth 0.75 Size 1.0 Phone depth : 1700.0 Arrival time : 687.0 msec Shot 19 Location : D01 Charge depth 0.75 Size 1.0 Phone depth : 1633.0 Arrival time : 675.0 msec Shot 20 Location : D01 Charge depth 0.75 Size 1 Phone depth : 1549.0 Arrival time : 650.0 msec Shot 21 Location : DOI Charge depth 0.75 Size 1 Phone depth : 1451.0 Arrival time : 621.0 msec Shot 22 Location : DOI Charge depth 0.75 Size 0.75 !j Phone depth : 1255.0 Arrival time : 551.0 msec SHOT 18 SHOT 19 SHOT 20 SHOT 21 SHOT 22 Time Ampl Time Ampl Time

Ampl Time Ampl Time Ampl 665.0 0.03 653.0 -0.04 628.0 0.06 599.0 -0.12 529.0 0.00 666.0 0.01 654.0 -0.29 629.0 0.02 600.0 -0.06 530.0 0.00 667.0 -0.03 655.0 -0.16 630.0 0.05 601.0 0.07 531.0 0.03 668.0 -0.05 656.0 0.20 631.0 0.12 602.0 0.11 532.0 0.04 669.0 -0.03 657.0 0.15 632.0 0.05 603.0 0.04 533.0 0.03 670.0 0.03 658.0 -0.29 633.0 -0.01 604.0 -0.08 534.0 0.02 671.0 0.05 659.0 -0.38 634.0 0.00 605.0 -0.09 535.0 0.04 672.0 0.03 660.0 0.13 635.0 0.11 606.0 0.00 536.0 0.04 673.0 -0.02 661.0 0.32 636.0 0.18 607.0 0.06 537.0 0.04 674.0 -0.02 662.0 -0.20 637.0 0.17 608.0 0.02 538.0 0.04 675.0 0.01 663.0 -0.34 638.0 0.09 609.0 -0.07 539.0 0.04 676.0 0.06 664.0 0.20 639.0 -0.04 610.0 -0.06 540.0 0.04 677.0 0.06 665.0 0.32 640.0 -0.07 611.0 0.05 541.0 0.04 678.0 0.02 666.0 -0.16 641.0 -0.05 612.0 0.07 542.0 0.04 679.0 -0.01 667.0 -0.20 642.0 0.10 613.0 -0.05 543.0 0.04 680.0 -0.02 668.0 0.16 643.0 0.15 614.0 -0.14 544.0 0.04 681.0 0.00 669.0 0.19 644.0 0.10 615.0 -0.06 545.0 0.04 682.0 0.01 670.0 -0.18 645.0 0.03 616.0 0.09 546.0 0.04 683.0 0.01 671.0 -0.34 646.0 0.02 617.0 0.09 547.0 0.04 684.0 -0.01 672.0 -0.04 647.0 0.01 618.0 -0.01 548.0 0.04 685.0 -0.02 673.0 0.14 648.0 0.01 619.0 -0.06 549.0 0.04 686.0 -0.01 674.0 -0.02 649.0 0.03 620.0 -0.04 550.0 0.04 687.0 0.00 675.0 -0.27 650.0 0.05 621.0 -0.03 5510 0.04 688.0 -0.02 676.0 -0.35 651.0 -0.04 622.0 -0.17 552.0 0.01 689.0 -0.06 677.0 -0.50 652.0 -0.21 623.0 -0.43 553.0 -0.07 ■690.0 -0.10 678.0 •1.05 653.0 -0.40 624.0 -0.83 554.0 0.29 691.0 -0.14 679.0 -1.59 654.0 -■0.58 625.0 -1.26 555.0 -0.52 692.0 -0.21 680.0 -1.88 655.0 -0.77 626.0 -1.74 556.0 -0.91 693.0 -0.30 681.0 -2.22 656.0 -1.35 627.0 -2.47 557.0 -1.84 694.0 -0.49 682.0 -2.91 657.0 -1.92 628.0 -3.36 558.0 -2.57 695.0 -0.76 683.0 -3.74 658.0 -2.59 629.0 -4.17 559.0 -3.40 696.0 -1.06 684.0 -4.24 659.0 -3.22 630.0 -5.03 560.0 -4.17 697.0 -1.36 685.0 -4.58 660.0 -3.83 631.0 -5.81 561.0 -5.08 698.0 -1.72 686.0 -4.90 661.0 -4.37 632.0 -6.46 562.0 -5.95 699.0 -2.16 687.0 -5.14 662.0 -4.96 633.0 -6.93 563.0 -6.68 700.0 -2.61 688.0 -5.05 663.0 -5.42 634.0 -7.08 564.0 -7.17 701.0 -3.00 689.0 -4.64 664.0 -5.66 635.0 -6.81 565.0 -7.32 702.0 -3.32 690.0 -4.01 665.0 -5.66 636.0 -6.16 566.0 -7.09 703.0 -3.57 691.0 -3.17 666.0 -5.38 637.0 -5.26 567.0 -6.50 704.0 -3.75 692.0 -2.12 667.0 -4.81 638.0 -4.09 568.0 -5.56 705.0 -3.81 693.0 •0.86 668.0 -3.98 639.0 -2.52 569.0 -4.29 706.0 -3.68 694.0 0.61 669.0 -2.86 640.0 -0.66 570.0 -2.66 707.0 -3.33 695.0 1.75 670.0 -1.54 641.0 0.84 571.0 -0.86 708.0 -2.79 696.0 3.07 671.0 0.16 642.0 2.73 572.0 1.01 709.0 -2.11 697.0 4.20 672.0 1.46 643.0 4.35 573.0 2.79 C-R2‘?8 23 24 — 25 26 27 20 -25 -20 -15 -10 10 Arrival offset time (msec) Shot 23 Location : DOI Charge depth 0.75 Size 0.75 Phone depth : 1118.0 Arrival time : 498.0 msec Shot 24 Location : DOI Charge depth 0.75 Size 0.5 Phone depth : 1085.0 Arrival time : 490.0 msec Shot 25 Location : D01 Charge depth 0.75 Size 0.5 Phone depth : 869.0 Arrival time : 403.0 msec Shot 26 Location : DOI Charge depth 0.75 Size 0.5 Phone depth : 713.0 Arrival time : 351.0 msec Shot 27 Location : DOI Charge depth 0.75 Size 0.5 2^Phone depth : 496.0 Arrival time : 257.0 msec SHOT 23 SHOT 24 SHOT 25 SHOT 26 SHOT 27 Time Ampi Time Ampi Time Ampi Time Ampi Time Ampi 476.0 0.00 468.0 0.16 381.0 -0.04 329.0 0.23 235.0 0.12 477.0 0.01 469.0 0.13 382.0 -0.12 330.0 0.20 236.0 0.19 478.0 0.02 470.0 0.03 383.0 -0.14 331.0 0.11 237.0 0.20 479.0 0.03 471.0 -0.05 384.0 -0.09 332.0 0.02 238.0 0.14 480.0 0.05 472.0 -0.05 385.0 0.01 333.0 -0.10 239.0 0.03 481.0 0.06 473.0 -0.03 386.0 0.18 334.0 -0.17 240.0 -0.12 482.0 0.05 474.0 0.00 387.0 0.29 335.0 -0.22 241.0 -0.21 483.0 0.03 475.0 0.01 388.0 0.34 336.0 -0.24 242.0 -0.24 484.0 0.02 476.0 0.01 389.0 0.29 337.0 -0.23 243.0 -0.19 485.0 0.04 477.0 -0.01 390.0 0.16 338.0 -0.18 244.0 -0.08 486.0 0.04 478.0

-0.06 391.0 0.06 339.0 -0.09 245.0 0.08 487.0 0.01 479.0 -0.11 392.0 0.00 340.0 0.05 246.0 0.25 488.0 -0.03 480.0 -0.10 393.0 -0.01 341.0 0.17 247.0 0.38 489.0 -0.02 481.0 -0.05 394.0 0.02 342.0 0.23 248.0 0.39 490.0 0.01 482.0 0.06 395.0 0.06 343.0 0.20 249.0 0.29 491.0 0.02 483.0 0.14 396.0 0.11 344.0 0.08 250.0 0.10 492.0 0.01 484.0 0.12 397.0 0.12 345.0 -0.03 251.0 -0.09 493.0 -0.01 485.0 -0.03 398.0 0.11 346.0 -0.15 252.0 -0.26 494.0 -0.02 486.0 -0.16 399.0 0.11 347.0 -0.22 253.0 -0.33 495.0 0.00 487.0 -0.24 400.0 0.13 348.0 -0.25 254.0 -0.32 496.0 0.03 488.0 -0.24 401.0 0.16 349.0 -0.20 255.0 -0.20 497.0 0.03 489.0 -0.22 402.0 0.17 350.0 -0.12 256.0 -0.08 498.0 -0.01 490.0 •0.23 403.0 0.15 351.0 0.10 257.0 -■0.04 499.0 -0.04 491.0 -0.31 404.0 0.08 352.0 -0.19 258.0 -0.22 500.0 -0.06 492.0 -0.60 405.0 -0.03 353.0 -0.43 259.0 -0.70 501.0 -0.14 493.0 -1.35 406.0 -0.13 354.0 -0.94 260.0 -2.00 502.0 -0.30 494.0 -2.03 407.0 -0.25 355.0 -1.86 261.0 -4.15 503.0 -0.62 495.0 -2.75 408.0 -0.38 356.0 -3.07 262.0 6.63 504.0 -1.15 496.0 3.47 409.0 -0.64 357.0 -4.56 263.0■ ■ -10.31 505.0 -1.81 497.0 -4.13 410.0 -1.32 358.0 -6.56 264.0 -14.65 506.0 -2.68 498.0 -4.85 411.0 -2.25 359.0 -8.88 265.0 -19.85 507.0 -3.78 499.0 -5.49 412.0 -3.67 360.0 -11.37 266.0 -24.41 508.0 -4.96 500.0 -6.04 413.0 -5.39 361.0 -13.84 267.0 -28.13 509.0 -6.27 501.0 -6.48 414.0 -7.63 362.0 -16.05 268.0 -30.53 510.0 -7.56 502.0 -6.70 415.0 -10.06 363.0 -17.73 269.0 -31.14 511.0 -8.69 503.0 -6.57 416.0 -12.47 364.0 -18.61 270.0 -29.61 512.0 -9.57 504.0 -6.08 417.0 -14.51 365.0 -18.33 271.0 -25.77 513.0 -10.10 505.0 -5.17 418.0 -15.65 366.0 -16.77 272.0 -20.05 514.0 -10.11 506.0 -3.95 419.0 -15.89 367.0 -14.76 273.0 -13.81 515.0 -9.53 507.0 -2.49 420.0 -15.01 368.0 -10.92 274.0 -5.47 516.0 -8.35 508.0 -0.96 421.0 -13.58 369.0 -6.03 275.0 3.67 517.0 -6.63 509.0 0.65 422.0 -10.40 370.0 -0.88 276.0 11.88 518.0 -4.43 510.0 2.37 423.0 -6.24 371.0 5.52 277.0 19.93 519.0 -1.75 511.0 3.96 424.0 -1.32 372.0 11.45 278.0 26.05 520.0 0.72 512.0 5.45 425.0 3.37 373.0 17.33 279.0 30.69 A Shot 28 Location : DOI Charge depth 0.75 Size 0.5 Phone depth : 314.0 Arrival time : 171.0 msec -25 -20 -15 -10 Arrival offset time (msec) SHOT 28 Time Ampl 149.0 -0.25 150.0 -0.04 151.0 0.16 152.0 0.29 153.0 0.39 154.0 0.41 155.0 0.39 156.0 0.37 157.0 0.34 158.0 0.30 159.0 0.25 160.0 0.20 161.0 0.16 162.0 0.10 163.0 0.05 164.0 0.01 165.0 -0.03 166.0 -0.04 167.0 -0.02 168.0 0.02 169.0 0.11 170.0 0.16 171.0 0.13 172.0 -0.03 173.0 -0.46 174.0 -2.18 175.0 -4.34 176.0 -8.37 177.0 -14.69 178.0 -24.65 179.0 -36.30 180.0 -49.58 181.0 -64.59 182.0 -76.92 183.0 -86.20 184.0 -90.52 185.0 -88.20 186.0 -78.36 187.0 -61.31 188.0 -39.62 189.0 9.62 190.0 13.88 191.0 50.30 192.0 80.76 193.0 104.53 ;>9 30 31' 33 20 Shot 29 ■Location : E Charge depth 0.5 Size 0.2 Phone depth : 45.0 Arrival time : 39.0 msec Shot 30 Location : A Charge depth 0.5 Size 0.2 Phone depth : 45.0 Arrival time : 34.5 msec Shot 31 Location : B Charge depth 0.5 Size 0.2 Phone depth : 45.0 Arrival time : 41.0 msec Shot 32 Location : C Charge depth 0.5 Size 0.2 Phone depth : 45.0 Arrival time : 45.5 msec L -25 -20 -15 -10 10 Arrival offset time (msec) Shot 33 Location : C Charge depth 0.5 Size 0.2 2^ Phone depth : 45.0 Arrival time : 45.5 msec SHOT 29 SHOT 30 SHOT 31 SHOT 32 SHOT 33 Time Ampi Time Ampl Time Ampl Time Ampi Time Ampl 28.0 814.00 24.0 61.00 30.0 2.00 34.0 19.00 34.0 68.00 28.5 79.00 24.5 2183.00 30.5 11.00 34.5 15.00 34.5 73.00 29.0 -82.00 25.0 1220.00 31.0 33.00 35.0 15.00 35.0 58.00 29.5 -86.00 25.5 416.00 31.5 18.00 35.5 14.00 35.5 69.00 30.0 -92.00 26.0 144.00 32.0 7.00 36.0 5.00 36.0 90.00 30.5 -90.00 26.5 148.00 32.5 27.00 36.5 -4.00 36.5 98.00 31.0 -85.00 27.0 162.00 33.0 46.00 37.0 -11.00 37.0 93.00 31.5 -93.00 27.5 188.00 33.5 41.00 37.5 -15.00 37.5 111.00 32.0 -83.00 28.0 175.00

34.0 39.00 38.0 -24.00 38.0 117.00 32.5 -65.00 28.5 186.00 34.5 54.00 38.5 -24.00 38.5 115.00 33.0 -52.00 29.0 169.00 35.0 66.00 39.0 -26.00 39.0 119.00 33.5 -60.00 29.5 170.00 35.5 86.00 39.5 -25.00 39.5 121.00 34.0 -44.00 30.0 195.00 36.0 97.00 40.0 •31.00 40.0 124.00 34.5 -20.00 30.5 204.00 36.5 103.00 40.5 -36.00 40.5 124.00 35.0 8.00 31.0 194.00 37.0 109.00 41.0 -33.00 41.0 129.00 35.5 15.00 31.5 195.00 37.5 110.00 41.5 -22.00 41.5 116.00 36.0 22.00 32.0 210.00 38.0 113.00 42.0 -25.00 42.0 126.00 36.5 37.00 32.5 201.00 38.5 118.00 42.5 -27.00 42.5 137.00 37.0 57.00 33.0 201.00 39.0 131.00 43.0 1069.00 43.0 127.00 37.5 69.00 33.5 201.00 39.5 131.00 43.5 290.00 43.5 114.00 38.0 69.00 34.0 187.00 40.0 135.00 44.0 16.00 44.0 114.00 38.5 65.00 24.5 nn 40.5 118.00 44.5 6.00 44.5 111.00 39.0 10.00 35 0 42 00 41.0 85.00 45.0 -2.00 45.0 93.00 39.5 -237.00 35.5 -295.00 41.5 -62.00 45.5 -46.00 45.5 46.00 40.0 -935.00 36.0 -1142.00 42.0 -499.00 46.0 -185.00 46.0 -53.00 40.5 -2338.00 36.5 -3012.00 42.5 -1414.00 46.5 -575.00 46.5 -348.00 41.0 -4764.00 37.0 -6398.00 43.0 -2967.00 47.0 -1394.00 47.0 -955.00 41.5 -8322.00 37.5 -11516.00 43.5 -5282.00 47.5 -2835.00 47.5 -1964.00 42.0 -12811.00 38.0 18075.00 44.0 -8177.00 48.0 -■4858.00 48.0 -3286.00 42.5 -17698.00 38.5 -25177.00 44.5 -11238.00 48.5 -7165.00 48.5 -4793.00 43.0 -22092.00 39.0 -31560.00 45.0 -13970.00 49.0 -9133.00 49.0 -6096.00 43.5

24900.00 39.5 -32768.00 45.5 -15992.00 49.5 -10197.00 49.5 -5511.00 44.0 -25187.00 ■40.0 -32768.00 46.0 -17140.00 50.0 -10053.00 50.0 -6558.00 44.5 -22766.00 40.5 -32768.00 46.5 -17464.00 50.5 -8925.00 50.5 -6682.00 45.0 -18308.00 41.0 -32768.00 47.0 -17105.00 51.0 -7263.00 51.0 -5939.00 45.5 -13165.00 41.5 -27839.00 47.5 -16245.00 51.5 -5517.00 51.5 -4828.00 46.0 8605.00 42.0 -21376.00 48.0 -15025.00 52.0 -3805.00 52.0 -■3351.00 46.5 -5127.00 42.5 -14503.00 48.5 -13444.00 52.5 -2165.00 52.5 -1623.00 47.0 -2315.00 43.0 -7760.00 49.0 -11488.00 53.0 -437.00 53.0 232.00 47.5 567.00 43.5 -1516.00 49.5 -9282.00 53.5 1207.00 53.5 1942.00 48.0 4091.00 44.0 4031.00 50.0 -6879.00 54.0 2815.00 54.0 3346.00 48.5 8965.00 44.5 8768.00 50.5 -4344.00 54.5 4145.00 54.5 4278.00 49.0 12458.00 45.0 12623.00 51.0 -1699.00 55.0 5106.00 55.0 4865.00 49.5 16071.00 45.5 15551.00 51.5 997.00 55.5 5701.00 55.5 5249.00 50.0 18958.00 46.0 17506.00 52.0 3644.00 56.0 6068.00 56.0 5527.00 34 35 36 37 38 20 Shot 38 Location : D Charge depth 0.5 Size 0.2 Phone depth : 165.0 Arrival time : 96.5 msec Shot 34 Location : D Charge depth 0.5 Size 0.2 Phone depth : 45.0 Arrival time : 45.0 msec Shot 35 Location : 0 Charge depth 0.5 Size 0.2 Phone depth : 45.0 Arrival time : 45.0 msec Shot 36 Location : D Charge depth 0.5 Size 0.2 Phone depth : 85.0 Arrival time : 59.0 msec Shot 37 Location : D Charge depth 0.5 Size 0.2 Phone depth : 125.0 Arrival time : 78.0 msec i -25 -20 -15 -10 10 Arrival offset time (msec) SHOT 34 SHOT 35 SHOT 36 SHO1 r 37 SH01 r 38 Time Ampl Time Ampl Time Ampl Time Ampl Time Ampl 34.0 80.00 34.0 52.00 48.0 12.00 67.0 53.00 86.0 43.00 34.5 81.00 34.5 52.00 48.5 43.00 67.5 50.00 86.5 43.00 35.0 83.00 35.0 55.00 49.0 18.00 68.0 54.00 87.0 35.00 35.5 75.00 35.5 69.00 49.5 35.00 68.5 51.00 87.5 35.00 36.0 116.00 36.0 67.00 50.0 9.00 69.0 50.00 88.0 39.00 36.5 116.00 36.5 59.00 50.5 30.00 69.5 55.00 88.5 44.00 37.0 120.00 37.0 56.00 51.0 41.00 70.0 54.00 89.0 44.00 37.5 113.00 37.5 70.00 51.5 68.00 70.5 51.00 89.5 44.00 38.0 124.00 38.0 60.00 52.0 73.00 71.0 49.00 90.0 36.00 38.5 112.00 38.5 53.00 52.5 46.00 71.5 50.00 90.5 41.00 39.0 117.00 39.0 62.00 53.0 55.00 72.0 43.00 91.0 41.00 39.5 122.00 39.5 69.00 53.5 62.00 72.5 44.00 91.5 33.00 40.0 145.00 40.0 67.00 54.0 68.00 73.0 53.00 92.0 39.00 40.5 133.00 40.5 60.00 54.5 83.00 73.5 37.00 92.5

41.00 41.0 117.00 41.0 69.00 55.0 74.00 74.0 39.00 93.0 35.00 41.5 127.00 41.5 68.00 55.5 58.00 74.5 37.00 93.5 30.00 42.0 123.00 42.0 71.00 56.0 50.00 75.0 36.00 94.0 37.00 42.5 127.00 42.5 69.00 56.5 43.00 75.5 35.00 94.5 41.00 43.0 107.00 43.0 77.00 57.0 66.00 76.0 29.00 95.0 39.00 43.5 107.00 43.5 74.00 57.5 77.00 76.5 21.00 95.5 34.00 44.0 98.00 44.0 73.00 58.0 49.00 77.0 23.00 96.0 32.00 44.5 90.00 44.5 64.00 58.5 18.00 77.5 18.00 96.5 32.00 45.0 47.00 45.0 57.00 59.0 -49.00 78.0 -13.00 97.0 9.00 45.5 -109.00 45.5 19.00 59.5 -294.00 78.5 -64.00 97.5 -39.00 46.0 -472.00 46.0 -66.00 60.0 -885.00 79.0 -177.00 98.0 -123.00 46.5 -1212.00 46.5 -251.00 60.5 -2251.00 79.5 -390.00 98.5 -287.00 47.0 -2542.00 47.0 -611.00 61.0 -4877.00 80.0 -765.00 99.0 -560.00 47.5 -4679.00 47.5 -1259.00 61.5 -9273.00 80.5 -1337.00 99.5 -968.00 48.0 -7757.00 48.0 -2257.00 62.0 -15501.00 81.0 -2139.00 100.0 -1532.00 48.5 -11796.00 48.5 -3580.00 62.5 -22908.00 81.5 -3151.00 100.5 -2253.00 49.0 -16500.00 49.0 -5081.00 63.0 -30165.00 82.0 -4287.00 101.0 -3068.00 49.5 -21396.00 49.5 -6538.00 63.5 -32768.00 82.5 -5412.00 101.5 -3896.00 50.0 -25896.00 50.0 -7704.00 64.0 -32768.00 83.0 -6373.00 102.0 -4622.00 50.5 -29536.00 50.5 -8449.00 64.5 -32768.00 83.5 -7047.00 102.5 -5143.00 51.0 -31957.00 51.0 -8739.00 65.0 -32768.00 84.0 -7359.00 103.0 -5403.00 51.5 -32768.00 51.5 -8614.00 65.5 -32768.00 84.5 7313.00 103.5■ -5382.00 52.0 -32444.00 52.0 -8078.00 66.0 -32768.00 85.0 -6936.00 104.0 -5094.00 52.5 -30377.00 52.5 -7170.00 66.5 -32768.00 85.5 -6304.00 104.5 -4593.00 53.0 -26920.00 53.0 -5903.00 67.0 -27616.00 86.0 -5476.00 105.0 -3939.00 53.5 -22286.00 53.5 -4412.00 67.5 -21057.00 86.5 -4514.00 105.5 -3176.00 54.0 -16796.00 54.0 -2821.00 68.0 -13722.00 87.0 -3457.00 106.0 -2337.00 54.5 -10697.00 54.5 -1247.00 68.5 -6447.00 87.5 -2361.00 106.5 -1468.00 55.0 -4765.00 55.0 247.00 69.0 274.00 88.0 -1290.00 107.0 -604.00 55.5 1260.00 55.5 1662.00 69.5 6096.00 88.5 -280.00 107.5 208.00 56.0 6981.00 56.0 2951.00 70.0 11055.00 89.0 647.00 108.0 919.00 39 40. 41- 42- 43 Shot 39 Location : D Charge depth 0.5 Size 0.2 Phone depth : 165.0 Arrival time : 96.0 msec Shot 40 Location : B Charge depth 0.5 Size 0.2 Phone depth : 165.0 Arrival time : 97.0 msec Shot 41 Location : C Charge depth 0.5 Size 0.2 Phone depth : 165.0 Arrival time : 96.5 msec Shot 42 Location : D Charge depth 0.5 Size 0.5 Phone depth : 1451.0 Arrival time : 615.5 msec Shot 43 Location : D _ Charge depth 0.5 Size 0.75 2jb Phone depth : 2108.0 i I I I i L I L- I I I -25 -20 -15 -10 -5 0 5 10 15 20 Arrival offset time (msec) Arrival time : 788.5 msec SHOT 39 SHOT 40 SHOT 41 SHOT 42 SHOT 43 Time Ampi Time Ampi Time Ampi Time Ampi Time Ampi 85.0 46.00 86.0 40.00 86.0 45.00 604.0 39.00 778.0 55.00 85.5 42.00 86.5 37.00 86.5 45.00 604.5 20.00 778.5 100.00 86.0 43.00 87.0 43.00 87.0 43.00 605.0 33.00 779.0 60.00 86.5 39.00 87.5 43.00 87.5 42.00 605.5 53.00 779.5 102.00 87.0 42.00 88.0 43.00 88.0 46.00 606.0 73.00 780.0 101.00 87.5 45.00 88.5 41.00 88.5 44.00 606.5 41.00 780.5 87.00 88.0 45.00 89.0 43.00 89.0 41.00 607.0 73.00 781.0 57.00 88.5 47.00 89.5 41.00 89.5 43.00 607.5 82.00 781.5 105.00 89.0 41.00 90.0 37.00 90.0 41.00 608.0 69.00 782.0 105.00 89.5 43.00 90.5 38.00 90.5 39.00 608.5 19.00 782.5 47.00 90.0 48.00 91.0 34.00 91.0 40.00 609.0 20.00 783.0 80.00 90.5 48.00 91.5 41.00 91.5 41.00 609.5 26.00 783.5 63.00 91.0 46.00 92.0 27.00 92.0 40.00 610.0 39.00 784.0 70.00 91.5 48.00 92.5 33.00 92.5 41.00 610.5 25.00 784.5 44.00 92.0 47.00 93.0 32.00 93.0 33.00 611.0 33.00 785.0 21.00 92.5 49.00 93.5 32.00 93.5 40.00 611.5 61.00 785.5 90.00 93.0 46.00 94.0 32.00 94.0 44.00 612.0 33.00 786.0 67.00 93.5 39.00 94.5 29.00 94.5 43.00 612.5 13.00 786.5 113.00 94.0 41.00 95.0 35.00 95.0 38.00 613.0 -34.00 787.0

25.00 94.5 42.00 95.5 32.00 95.5 46.00 613.5 24.00 787.5 50.00 95.0 38.00 96.0 36.00 96.0 34.00 614.0 -18.00 788.0 -33.00 95.5 35.00 96.5 27.00 96.5 31.00 614.5 18.00 788.5 -15.00 96.0 29.00 97.0 39.00 97.0 1.00 615.0 4.00 789.0 -60.00 96.5 11.00 97.5 34.00 97.5 -53.00 615.5 11.00 789.5 -24.00 97.0 -9.00 98.0 26.00 98.0 -149.00 616.0 -38.00 790.0 -152.00 97.5 -71.00 98.5 7.00 98.5 -304.00 616.5 -154.00 790.5 -175.00 98.0 -173.00 99.0 -23.00 99.0 -501.00 617.0 -223.00 791.0 -217.00 98.5 -349.00 99.5 -83.00 99.5 -704.00 617.5 -280.00 791.5 -301.00 99.0 -634.00 100.0 -155.00 100.0 -875.00 618.0 -375.00 792.0 -339.00 99.5 -1049.00 100.5 -230.00 100.5 -974.00 618.5 -558.00 792.5 -425.00 100.0 -1605.00 101.0 -313.00 101.0 -985.00 619.0 -703.00 793.0 -505.00 100.5 -2252.00 101.5 -375.00 101.5 -914.00 619.5 -847.00 793.5 -544.00 101.0 -2947.00 102.0 414.00 102.0 -785.00 620.0 -1009.00 794.0 -637.00 101.5 -3584.00 102.5 434.00 102.5 -618.00 620.5 -1267.00 794.5 -695.00 102.0 -4083.00 103.0 417.00 103.0 -423.00 621.0 -1492.00 795.0 -747.00 102.5 -4397.00 103.5 -388.00 103.5 -213.00 621.5 -1638.00 795.5 793.00 103.0 -■4516.00 104.0 -326.00 104.0 -13.00 622.0 -1820.00 796.0 -867.00 103.5 4440.00 104.5 -■252.00 104.5 190.00 622.5 -2029.00 796.5 -919.00 104.0 4199.00 105.0 -173.00 105.0 365.00 623.0 -2150.00 797.0 -911.00 104.5 -3833.00 105.5 -85.00 105.5 505.00 623.5 -2270.00 797.5 -945.00 105.0 -3361.00 106.0 8.00 106.0 603.00 624.0 -2265.00 798.0 -936.00 105.5 -2800.00 106.5 89.00 106.5 670.00 624.5 -2310.00 798.5 -850.00 106.0 -2173.00 107.0 169.00 107.0 707.00 625.0 -2261.00 799.0 -803.00 106.5 -1527.00 107.5 251.00 107.5 727.00 625.5 -2203.00 799.5 -790.00 107.0 -873.00 108.0 314.00 108.0 734.00 626.0 2125.00 800.0 -700.00 j Shot 44 Location : D Charge depth 0.6 Size 1.0 ■Phone depth : 2498.0 Arrival time : 878.5 msec Shot 45 Location : D Charge depth 0.6 Size 1.0 Phone depth : 2498.0 Arrival time : 878.5 msec Shot 46 Location : D Charge depth 0.6 Size 1.5 Phone depth : 2665.0 Arrival time : 922.0 msec Shot 48 Location : D Charge depth 0.7 Size 2.0 Shot 47 Location : D Charge depth 0.7 Size 2.0 Phone depth ; 2665.0 Arrival time : 922.0 msec i i . i - i i i i- i i i Arrival time : 921.5 msec -25 -20 -15 -10 -5 0 5 10 15 20 2$ Phone depth : 2665.0 Arrival offset time (msec) SHOT 44 SHOT 45 SHOT 46 SHOT 47 SHOT 48 Time Ampl Time Ampl Time Ampl Time Ampl Time Ampl 868.0 41.00 868.0 -1075.00 911.0 227.00 911.0 -363.00 910.0 53.00 868.5 35.00 868.5 -1554.00 911.5 339.00 911.5 -396.00 910.5 58.00 869.0 46.00 869.0 -1163.00 912.0 150.00 912.0 -403.00 911.0 44.00 869.5 13.00 869.5 30.00 912.5 271.00 912.5 -309.00 911.5 54.00 870.0 12.00 870.0 145.00 913.0 140.00 913.0 -364.00 912.0 30.00 870.5 11.00 870.5 -106.00 913.5 118.00 913.5 -459.00 912.5 118.00 871.0 73.00 871.0 -258.00 914.0 92.00 914.0 -412.00 913.0 75.00 871.5 18.00 871.5 -294.00 914.5 137.00 914.5 -372.00 913.5 87.00 872.0 4.00 872.0 252.00 915.0 128.00 915.0 -294.00 914.0 57.00 872.5 23.00 872.5 -451.00 915.5 174.00 915.5 -355.00 914.5 95.00 873.0 5.00 873.0 -382.00 916.0 268.00 916.0 -295.00 915.0 70.00 873.5 26.00 873.5 95.00 916.5 322.00 916.5 -430.00 915.5 75.00 874.0 26.00 874.0 -320.00 917.0 391.00 917.0 -369.00 916.0 97.00 874.5 37.00 874.5 -472.00 917.5 445.00 917.5 -298.00 916.5 13.00 875.0 0.00 875.0 4.00 918.0 325.00 918.0 -182.00 917.0 -7.00 875.5 35.00 875.5 -1149.00 918.5 287.00 918.5 -266.00 917.5 43.00 876.0 -54.00 876.0 -1621.00 919.0 195.00 919.0 -389.00 918.0 25.00 876.5 -54.00 876.5 -1900.00 919.5 195.00 919.5 -280.00 918.5 63.00 877.0 -74.00 877.0 -1782.00 920.0 77.00 920.0 -372.00 919.0 59.00 877.5 -104.00 877.5 -894.00 920.5 119.00 920.5 -166.00 919.5 5.00 878.0 -132.00 878.0 -828.00

921.0 162.00 921.0 -232.00 920.0 7.00 878.5 -153.00 878.5 -631.00 921.5 23.00 921.5 -242.00 920.5 -15.00 879.0 268.00 879.0 •1311.00 922.0 131.00 922.0 •268.00 921.0 -■33.00 879.5 -406.00 879.5 -2381.00 922.5 -59.00 922.5 -441.00 921.5 -44.00 880.0 -393.00 880.0 -3464.00 923.0 -158.00 923.0 -498.00 922.0 -124.00 880.5 -492.00 880.5 -4198.00 923.5 -248.00 923.5 -556.00 922.5 -161.00 881.0 -627.00 881.0 -4016.00 924.0 -283.00 924.0 •607.00 923.0 -193.00 881.5 -724.00 881.5 -4488.00 924.5 -366.00 924.5 -580.00 923.5 -227.00 882.0 -834.00 882.0 -5129.00 925.0 -438.00 925.0 -585.00 924.0 -273.00 882.5 937.00 882.5 -7557.00 925.5 -384.00 925.5 -660.00 924.5 -328.00 883.0 -1092.00 ■883.0 -7992.00 926.0 -543.00 926.0 -777.00 925.0 -336.00 883.5 -1204.00 883.5 -8529.00 926.5 -588.00 926.5 -855.00 925.5 -424.00 884.0 -1355.00 884.0 -9305.00 927.0 -780.00 927.0 -850.00 926.0 -503.00 884.5 -1472.00 884.5 -10106.00 927.5 -664.00 927.5 -1018.00 926.5 -532.00 885.0 -1556.00 885.0 -11610.00 928.0 -841.00 928.0 -1074.00 927.0 -644.00 885.5 •1595.00 885.5 -12585.00 928.5 -783.00 928.5 -953.00 927.5 744.00 886.0 -■1642.00 886.0 -14440.00 929.0 -757.00 929.0 -1021.00 928.0 -797.00 886.5 -1652.00 886.5 -16161.00 929.5 -870.00 929.5 -1051.00 928.5 -849.00 887.0 -1642.00 887.0 -15514.00 930.0 -901.00 930.0 -1100.00 929.0 -865.00 887.5 -1567.00 887.5 -16142.00 930.5 - 1073.00 930.5 -1229.00 929.5 -865.00 888.0 -1518.00 888.0 -16372.00 931.0 -957.00 931.0 -1201.00 930.0 -1036.00 888.5 -1418.00 888.5 -16367.00 931.5 -894.00 931.5 -1125.00 930.5 -1057.00 889.0 -1290.00 889.0 -15445.00 932.0 -732.00 932.0 -1155.00 931.0 -1153.00 889.5 -1157.00 889.5 -15052.00 932.5 -868.00 932.5 -1168.00 931.5 -1131.00 890.0 -1009.00 890.0 -13645.00 933.0 -881.00 933.0 -1035.00 932.0 -1221.00

Time m & o £ X co 3 C P 2 O * 3 t <* » • 8 |_. s S’ $ •< H 3 0) o x • S N n r 8 m € > x £ m a ■ ■3 -< X. O £ cn no _ £ w m 2 « w 5 Fold Moro o co ch o o 2 o m ' > w o cn cn o o nj no cn O □Tl CD cn co b z CD cn c_ C Z CD CD > cn • R <5> 09 cn n CbonQOS In Mud Type or ■Additional Samplee Data Svnplo No. 15 JUN 94 ONE Depth - Driller Typo fluid in hole Chloride* Dena. viac ph [ Fluid Lobb Source of Sample Rm • Meat. Temp. Rmf • Maae Temp. Rmc • Meae. Temp. Source: Rmf Rm • BHT Rmf • BHT Rmc • BHT RomarKt Rmc 2667.0M KCL POLYMER N/A 9.3 9.6 FLOWLINE 0.43 036 0.46 K£A8 0.219 0.183 0231 45 85 • 71 • 78 • 77 * o r x o 00 z cn O ppm MEAS • wo 24 SIOE WALL CORES ATTEMPTED CD cn x. a) no no cn co ro cn cn no CD a> co £ io £ R no o> a) -4 co V) tn I s. O > TypoLQfl Tool Type □GAMMA RAY swe Z J TS cn -.MT > <7> no CO 0) > CO CD ' I- • cn T cn z * *• m no no _» (0 • CO ’ 0) CO I CO -I H I r- O r O I - -i -n ® 1 T o w o CO x O «— X Depth S 5 F -4 -< > 5 > Tl 0 -I ZD > 3 O > -I .0 c z z Tl 7) w. V) -i > fl} Serial No. 121 Scale Chonoeo -I Tl 3 Scale Up Holo Equipment Date Tool Petition TOP BOTTOM I o o N) 0 cn o m $ > r* 0 o m 0 Scale Down Hole Other HALLIBURTON LOGGING SERVICES, INC. (HLS) does not guarantee the accuracy of any interpretation of log data, conversion of “ _i_ • i L_ t . i— i.. a * fab.»» * M ~ a I Mm a w A Aft F inA trtrt log data to physical rock parameters' or recommendations which may be given by HLS personnel or which may appearJH® log At in ahv rtfhor form Anv user nf such data, interoretations. conversions, or recommendations ayees that HLS is not responsible, or In anv other form. Any user of such data, interpretations, conversions, or recommendations a^ees v I' ..Jtti. .1 .4. I*, Iaba j4emartAa nr AvnontM rftftlll pr in <ny uintn iunn. rut usci vi "'iv'k' except where due to gross negligence or willful misconduct, for any loss, damages, or expenses resulting thereof HALLIBURTON LOGGING SERVICES. INC. PAGE LIST VER 616466 4 6/16/94 2666:44 SYS1:0S81. MAJ1CD SUC-LS SHOT COME FIRE/ WEIGHT DEPTH MISFIRE PULLED NO. 1 2 3 9 6 7 6 9 16 11 \ 12 \ 13 14 15 16 17 18 19 26 21 22 23 24 2653 6H 2626. 8M 2618. 8M 2585. 8M 2548. 6M 2531.5H 2524. 6M 2566. 9H 2561. 6H 2494. 6H 2487. 6M 2362. 6H 5H 6H 2236. 6M 2166. 6H 2113. 6M 6H 6M 2676. 6H 2632. 8H 1885. 6M 1765.8H 1443. 6H M n n F 7 7 n m F F F M F n F F F F F F n H n ? 166LBS 6LBS 6LBS BULLET CONO CORE LENGTH BULLET TYPE CHARGE SIZE SONIC DT DENSITY RH08 CALIPER IN. Q0021725 CJrt CO 6LBS 6LBS 6LBS 6LBS 6LBS , 6LBS 26LBS■ 28LBS 6LBS 266LBS 6LBS 56LBS 6LBS 6LBS 6L8S 6LBS 6LBS 6LBS 6LBS 8LBS 0LBS 0 0 0 0 0 0 0 0 6 0 0 0 G G G G G G 0 G G G G G 26 15 18 15 18 EMPTY 29 26 18 16 18 22 16 13 EMPTY 12 16 16 13 26 EHR EHR EHR EHR EHR EHR EHR HR HR EHR EHR EHR EHR EHR EHR EHR EHR EHR EHR HR HR HR HR HR 556FPS 556FPS 556FPS 556FPS 556FPS 556FP5 556FP9 556FPS 556FPS 556FPS 556PPS 556FPS 556FP5 558FPS 556FPS 556FPS 556FP9 556FPS 556FP5 556FPS 556FPS 556FPS 556FPS 566FPS 56 71 63 77 76 78 74 85 95 67 68 69 77 67 78 77 76 74 73 85 84 97 85 115 2. 63 2. 67 2. 73 2. 53 2 52 2 45 2 54 2. 45 2. 15■ 2. 76 2. 76 2 64 2. 76 2 65 2 64 2. 66 2. 67 2 58 2.57 2.58 2 52 2 56 2. 62 2. 46 5 8 2 9 8 9 4 9 6 16. 6 16. 2 12. 6 9. 7 9 7 9 6 9 6 9 6 9 8 16. 3 9 8 9 5 9 2 18. 6 16. 4 16. 8 3 9 5 SHOT NO. 8 ANO 19 BULLET MERE CHIPPED LEGE NO: EHR > EXTRA HRRO ROCK HR • HARD ROCK FPS • FEET PER SECOND 0 • DAMAGED G • GOOD SWC/GR HALLIBURTON LOGGING SERVICES DDL-V Logging System - V3.33 PLAYBACK RAW DATA - TOP DEPTH 2259.4 m Reel: 01.MAJESTIC91 Play back FHe : 12.2300 Logged on 15/Jun/94 at 16:26 Depthtrack curve : TENS dot 0.00 0.00 GR API <1 .RH 1G 300.00 0.00 4000.00 lbs 1:200 2275 GR API

RA'’ :z 300.00 Depthtrack curve : TENS dot ssta 1:200 •v 0.00 4000.00 lbs HALLIBURTON LOGGING SERVICES DDL-V Logging System - V3.33 PLAYBACK RAW DATA - BOTTOM DEPTH 2319.8 m Reel: 01.MAJESTIC91 Play back File : 12.2300 Logged on 16/Jun/94 at 16:26 .LG .RH SWC/GR SWC/GR HALLIBURTON LOGGING SERVICES DDL-V Logging System - V3.33 PLAYBACK RAW DATA - TOP DEPTH 2542.0 m Reel: 01.MAJESTIC91 Play back File : 09.2653/2487* Logged on 16/Jun/94 at 15:49 Depthtrack curve : TENS dot 0.00 0.00 GR API .RH .LG 0.00 4000.00 9)6 200.00 1:200 G KM /IA GR API 200.00 Deptht ra ck curve : TENS dot 2S50 1:200 0.00 #000.00 be HALLIBURTON LOGGING SERVICES DDL-V Logging System - V3.33 PLAYBACK RAW DATA - BOTTOM DEPTH 2569.6 m Reel: 01.MAJESTIC91 Play back FHe : 09.2653/2487* Logged on 16/Jun/94 at 15:49 .RH .LG SWC/GR SWC/GR HALLIBURTON LOGGING SERVICES DDL-V Logging System - V3.33 PLAYBACK RAW DATA - TOP DEPTH 2575.8 m Reel: OtMAJESTICfl Play back FHe : 06.2653/2487 Logged on 16/Jun/94 at 11:52 Depthtrack curve : TENS dot 0.00 GR API GAMM/ R/Y .RH 1G 0.00 4000.00 ba 0.00 GR AR 200.00 200.00 Depthtrack curve : TENS dot 1200 2600 .2620 1:200 0.00 4000.00 ba HALLIBURTON LOGGING SERVICES DDL-V Logging System - V3.33 PLAYBACK RAW DATA - BOTTOM DEPTH 2645.2 m Reel: 01.MAJESTIC91 .RH Ray back FHe : 06.2653/2487 £G Logged on 16/Jun/94 at 11:52 SWC/GR Tool type GAMMA RAY TOOL BEFORE-SURVEY CALIBRATION GR -DC Date performed l6/Jun/94 Serial Number 121 Time performed 10:21 Background Calibrator 33.49 Standard 147.38 200.00 Units CPS Delta Counts Per Sec: 113:88 CPS/API 0.57 Mnemonic Sensor DPTH TIME System Depth System Time Sensor Table Units ins/10 Offset(inches) Panel 0.0 PSYS DENC MAGM TSPD ms SP TCUR CCER TENS GR Mnemonic SP TENS GR Mnemonic DIOP DITS MAN GPP GR Mnemonic Bits Depth Encoder Magnetic Marks Tool Speed Spontaneous Potential Tool Current Communication Channel Error Line Tension Gamma Ray Curve Spontaneous Potential Line Tension Gamma Ray 0.0 0.0 ft/min mV mA 0.0 0.0 0.0 0.0 0.0 lbs 0.0 PSYS PSYS PSYS PGPP PGPP PGPP PGPP PGPP cps 91.2 PGR Output Table Units mV lbs API Software Panel Table Description Version # DIOP Processor DITSP Processor Panel Manager General Purpose Sensors Gamma Ray Tool Bit Size Parameter Identification Parameter HALLIBURTON LOGGING SERVICES, INC Filter-Type Value Units None Weighted 24.0 inches 1.02 1.06 1.05 1.02 1.05 Table Value 7.875 SIDE WALL CORES 1:200 H002351 Units Inch