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S2E89SEe2e8 2.18733 CODE 020
CANADIAN NICKEL COMPANY LIMITED GEOPHYSICAL ASSESSMENT REPORT FORT KNOX GOLD RESOURCES INC.
CODE TOWNSHIP CLAIMSKENORA MINING DIVISION
DISTRICT OF KENORAN.T.S. 52-E-9
RECEIVED
JAN 15 1988
MINING LANDS SECTION
E. K. BerrerCanadian Nickel Company Limited Copper Cliff, Ontario January 1988
Figure 2
Canadian Nickel Company Limited
FORT KNOX GOLD RESOURCES INC.
(Code Twp. Claim Group) Claim Location Map
SCALE PSOOOO
52 E/9
General
A geophysical survey was carried out to map the electromagnetic properties of the underlying rock over a small property in Western Ontario. The response from this survey will help to explore the property for base and precious metal deposits. The survey was conducted during the period from November 14 to 16, 1987.
Property
This report refers to the following group of claims that are held by William T. Knox. The claims are numbered as follows:
K 744432 to 744434 inclusive ,,K 744436 and 744437K 744558 to 744565 inclusive
Location and Access
The property is located in Western Ontario, 26 km southeast of the town of Kenora. The access is possible from Highway No. 71 via an all weather road that ends on the north shore of Witch Bay, part of the Lake of the Woods. The claims are to the west of this road about 5 km from the highway (see location map).
Geology
The claims are located in an area of mafic volcanics and mafic intrusives. The abandoned Wendigo Mine is situated 2 km to the southwest of this property. The mineralization of this mine consisted of gold, silver and copper (Ref: Ontario Geological Survey, Map No. 2443). Magnetometer and scintillometer surveys had been performed in 1984 by the Canadian Nickel Company. The results were reported in an assessment report in January of 1985.
Gridding
16.5 km of cross lines were cut every 100 metres perpendicular to 1.6 km of base line. Stations were marked at 25 metre intervals along the cross lines.
Instruments
Two types of VLF receivers were used to survey the property. A RADEM electromagnetic receiver manufactured by Crone Geophysics Limited of Mississauga, Ontario and an EM-16 receiver built by Geonics Limited of Toronto, Ontario. Specifications of both instruments are described in brochures supplied by the manufacturers and attached to this report.
Survey Procedures
Readings were taken of the dip angle of resulting electromagnetic field at 25 metre intervals along lines 100 metres apart. The dip angle readings were
recorded in,such a manner that when facing the direction of the transmitter location the downward extension of the axis of the receiver coil will point towards a possible ground conductor. The transmitters used for this survey were NAA at Cutler, Maine and NSS at Annapolis, Maryland. NAA transmits at a frequency of 24.0 kHz and NSS at a frequency of 21.4 kHz.
Plotting Procedure
The dip angle readings were plotted as numbers on a map at a scale of 1:2500. If the coil would dip on the left side while taking a reading (the axis through the coil will point to the right). The value plotted was designated with L for a left dip and R for a right dip.
The instrument type and the transmitter location are marked on the north end of each line. Also marked on the maps is the direction from the transmitter stations.
Results
Numerous electromagnetic conductors were indicated by the dip angle profiles. As can be seen most of these are overlying areas covered by swamps. These are probably caused by changes in the overburden conductivity. A conductor of interest was located at the northwest corner of the grid. This conductor may be caused by bedrock sources such as a strong shear or sulfide zone.
Survey Statistics
Operators:
Readings:Line km of survey: Station spacing: Line interval:
Ted LangWim Vanderklift61314.75 km25 m100 m
w } l 0 1 r o
On, arlo
Report of WorkResources (Geophysical, Geological,
Geochemical end Expenditures)
t. .
52Ee9SEe288 2.18733 CODE 900
The Mining MCI - Do not uie ihedvd areas balow.Type Of Surveyll)
Expenditures (Assay Costs)Township or Area
CodeClaim Hold*r(s)
Canadian Nickel Company LimitedProspector'* Licence No.
A 17527Address
Copper Cliff, Ontario POM 1NOSu'vey Company
Canadian Nickel Company LimitedDale o* Survey (from fli to) 7olal Miles of line Cut
nd Addrttt of Author (of Geo Technical report)
Credits Requested per Each Claim in Columns at rightSpecial Provisions
For first survey:
Enter 40 days. (This includes line cutting)
For each additfonal survey: using the same grid:
Enter 20 days (for each)
Man Days
Complete reverse side and enter total(s) here
Airborne Credits
Note: Special provisions
credits do not apply to Airborne Surveys.
G.ophv.ic.1 D-V.P"
- Electromagnetic
- Magnetometer
- Radiometric
- Other
Geological i
Geochemical
— Days pe- Geophysical C |a , m
- Elecuomagnei ic
- Magnetometer i
- Radiometric
- Other
Geological
Geochemicai :
Days perClaim
Electromagnetic
Magnetometer
Radiometric \
Expenditures (excludes power stripping)Type of Work Performed
AssayingPeMormed on Claimls)
K 744436; K 744437
Calculation of Expenditure Days Credits
Total ExpendituresTotal
Days Credits
| S 157.50nstructions
Total Days Credits may be apportioned at the claim holder's choice. Enter number of days credits per claim selected in columns at right.
Date
Nov. Ifc, 1987Recorded Holder or Agent (Signature)
Certification Verifying Report of Work
Mining Claims Traversed (List in numerical sequence)Mining Claim
Prefix Number
K 744436744437
l
f Gi-JTANIO GE3LOGfrA!- 1 ASisE^F.Vr.vT p
i, Or!- 1C E
j -I^'K 2 1 :'^
( RECEIVE
KENORA
Expend. Day* Cr.
55.5
SURVEYLua
'
D
~r^"*
Uuv 1'G ^9iv
7i8i^|10.'Uil2ili2i3i4-ML
— r?
ti
F
IN
Mining ClaimPrefix Number
a j ;"JIT".'.
.ECEIVED-: r; V 1 C^7
No LANUo otLIFUN
Expend. Days Cr.
1 hereby certify that 1 have a personal and intimate knowledge of the fact 1; set forth m the Report of Work annexed hereto, having performed or witnessed same during and/or after its completion and the annexed report is true.
the work
Name and Postal Address of Person Certifying
Ministry ofNorthern Developmentand Mines
Ontario Ministere duDeveloppement du Nord et des Mines
March 15, 1988 Your File: 208/87Our File: 2.10733
Mining RecorderMinistry of Northern Development and Mines808 Robertson StreetBox 5050Kenora, OntarioP9N 3X9
Dear Sir:
RE: Notice of Intent dated February 29, 1988Geophysical (Electromagnetic) Surveysubmitted on Mining Claims K 744432 et al
___in the Township of Code -——^-——————
The assessment work credits, as listed with the above-mentioned Notice of Intent, have been approved as of the above date.
Please inform the recorded holder of these mining claims and so indicate on your records.
Yours sincerely,
W.R. Cowan, ManagerMining Lands SectionMines and Minerals Division
Whitney Block, Room 6610 Queen's Park Toronto, Ontario M7A 1W3
Telephone: (416) 965-4888
RM:plEnclosure: Technical Assessment Work Credits
cc: Mr. 6.H. Ferguson Resident Geologist Mining b Lands Commissioner Kenora, Ontario Toronto, Ontario
Canadian Nickel Company Limited Copper Cliff, Ontario POM 1NO
Ministry ofNorthern Developmentand Mines
Technical Assessment Work Credits
OntarioDate
February 29, 1988
File
2.10733Mining Recorder's Report of Work 1,0. 2Q8-87
Recorded Holder
Canadian Nickel Co. LimitedTownship tfXXtt
CodeType of survey and number of
Assessment days credit per claimGeophysical
20Flartrnmagnfitic day*
Indnred polarization day-:
Othpr days
Section 77 (19) See "Mining Claims Assessed" column
Geological days
Geochemiral days
Man days | | Airborne l l
Special provision [~)j Ground [x]
[ | Credits have been reduced because of partial coverage of claims.
l | Credits have been reduced because of corrections to work dates and figures of applicant.
Mining Claims Assessed
K-744432 to 434 inclusive 744558 to 561 inclusive 744563 to 565 inclusive
Special credits under section 77 (16) for the following mining claims
15 days Electromagnetic
K-744436 to 437 inclusive 744562
No credits have been allowed for the following mining claims
[ [ not sufficiently covered by the survey [ | insufficient technical data filed
The Mining Recorder may reduce the above credits if necessary in order that the total number of approved assessment days recorded on each claim does not' " ----L.-!—i on. r:^i——-.(..an. r^rhamiml . 4Q: Section 77(19) - 60.
© Minntryoi Report of Work ^ R?.™!c.. (Geophysical. Geological. X J
Qnt Geochemical and Expenditures) \ l/*?-***
V The Mining ActType Of SurveyU)
Geophysical (VLF-EM)Claim HoldarU)
Canadian Nickel Company LimitedAddreii
Copper Cliff, Ontario POM 1NOSurvey Company Date of Sur
Canadian Nickel Company Limited ify i lil
Initruetionr. - Plrtie typi or print.'t^cT "f) 7 - K number of mining cleimt traversed
exceeds space on this form, attach e list. Note: — Only days credits calculated in the
"Expenditures" section may be entered In the "Expend. Days Cr." columns.
- Do not uie shaded areas below.Township or Area
Code /n- IK ZProtpector's Licence No.
A 17527
vey (from fc to)
,tf. HSU., ttName and Address of Author (of Geo-Technlcal report)
E. K. Berrer, c/o Canadian Nickel Company Limited, Copper Cliff, Ontario
tt
Total Miles of line Cut
20 km
POM 1NOCredits Requested per Each Claim in Columns at rightSpecial Provltiont
For firtt turvey:Enter 40 days. (This includes line cutting)
For each additional lurvey: using the same flrid:
Enter 20 days (for each)
Man Days
Complete reverse side and enter total(s) here
Airborne Credits
Note: Special provisions credits do not apply to Airborne Surveys.
Geophyiical
- Electromagnetic
- Magnetometer
- Radiometric
- Other
Geological
Geochemical
Geophysical
- Electromagnetic
- Magnetometer
- Radiometric
- Other
Geological
Geochemical
Electromagnetic
Magnetometer
Radiometric
Dayt per Claim
20
Days perClaim
Days per Claim
Expenditures (excludes power stripping)Type of Work Performed
Performed on Claim(s)
Calculation of Expenditure Days Credits
Total ExpendituresTotal
Days Credits
15Instruction*
Totat Days Credits may be apportioned at the claim holder's choice. Enter number of days credits per claim selected in columns at right.
Date
Nov. lU, 1987Recorded Holder or Agent (Signature)
Certification Verifying Report of Work
Mining Claims Traversed (List in numerical sequence)
Pref
K
K '- -•s
r. .
IT K J
s.\.
Mining Claimx Number
744432^ 744433re*?1
5 744434744436744437
744558744559744560744561744562744563744564744565
KENORAMINING DIV.
5)'-" r, ir j w4f j J I 'a u * '
U ' l -, 4 r m ,: NUV 1 0 191
A,DilOillil2ili2i;
Expend. Dayt Cr.
, fpN
3 Pr
? i
PM
Ml
Mining ClaimPrefix
flit
r
'
ra i c *^
SL. -.'.. --. ^-•' -- T L
Number
^~
.EI V ED- inn?
Expend. Days Cr.
"
l
J' ' ' ; ' -'' '
e' ' i
Total number of mining claims covered by this report of work.
For Office Use OnlyTotal Dayt Cr. Recorded
Date Recorded
Date Approved as Recorded
Mining MCorder
Branch Director
l hereby certify that l have a personal and intimate knowledge o1 the fact? set forth in the Report of Work annexed hereto, having performed the work or witnessed same during and/or after its completion and the annexed report is true. i \
f^rtifvino
so*-*-?
K 7?y 7^7/337VW3 ^
EM16 VLF Electromagnetic Unit
Pioneered and patented exclusively by Geonics Limited, the VLF method of electromagnetic surveying has been proven to be a major advance in exploration geophysical instrumentation.
Since the beginning of 1965 a large number of mining companies have found the EM16 system to meet the need for a simple, light and effective exploration tool for mining geophysics.
The VLF method uses the military and time standard VLF transmissions as primary field. Only a receiver is then used to measure the secondary fields radiating from the local con ductive targets. This allows a very light, one-man instrument to do the job. Because of the almost uniform primary field, good response from deeper targets is obtained.
The EM16 system provides the in-phase and quadrature components of the secondary field with the polarities indicated.
Interpretation technique has been highly developed particularly to differentiate deeper targets from the many surface indications.
Principle of OperationThe VLF transmitters have vertical antennas. The magnetic signal component is then horizontal and concentric around the transmitter location.
SpecificationsSource of primary field
Transmitting stations used
Operating frequency range
Parameters measured
Reading time
Method of reading
Scale range
Readability
VLF transmitting stations.
Any desired station frequency can be supplied with the instrument in the form of plug-in tuning units. Two tuning units can be plugged in at one time. A switch selects either station.
About 15-25 kHz.
(1) The vertical in-phase component (tangent of the tilt angle of the polarization ellipsoid).(2) The vertical out-of-phase (quadra ture) component (the short axis of the polarization ellipsoid compared to the long axis).
In-phase from a mechanical inclino meter and quadrature from a calibrated dial. Nulling by audio tone.
In-phase ± 150 0Xo; quadrature ± 40GXo. Shipping weight
10-40 seconds depending on signal strength.
Operating temperature range —40 to 50" C.
Operating controls
Power Supply
Dimensions
Weight
Instrument supplied with
ON-OFF switch, battery testing push button, station selector, switch, volume control, quadrature, dial ± 40"Xo, inclinometer dial ± 150*54.
6 size AA (penlight) alkaline cells. Life about 200 hours.
42 x 14 x 9 cm (16 x 5.5 x 3.5 in.)
1.6 kg (3.5 Ibs.)
Monotonic speaker, carrying case, manual of operation, 3 station selector plug-in tuning units (additional fre quencies are optional), set of batteries.
4.5 kg (10 Ibs.)
GEONICS LIMITED Designers A manufacturers of geophysical instruments
2 Thorncliffe Park DriveToronto/Ontario/CanadaM4H1H2Tel: (416) 425-1821Cables: Geonic's
-10X. 2W 3W 4W
OOT-OF-PHASt
Courtesy of Newfoundland A Labrador Corp. Ltd.
Areas of VLF SignalsCoverage shown only for well-known stations. Other reliable, fully operational stations exist. For full information regarding VLF signals in your area consult Geonics Limited. Extensive field experience has proved that the circles of coverage shown are very conservative and are actually much larger in extent.
EM 16 Profile over Lockport Mine Property, NewfoundlandAdditional case histories on request.
T l
horizontal coil
l 1 T'T10 - O -f 10
Station SelectorTwo tuning units can be plugged '/r af one time. A switch selects iither station.
Receiving CoilsVertical receiving coil circuit in instrument picks up any vertical signal present. Horizontal receiv ing coil circuit, after automatic
In-Phase Dialshows the tilt-angle of the instru ment for minimum signal. This angle is the measure of the vertical in-phase signal expressed in
90 C signal phase shift, feeds signal percentage when compared to the into quadrature dial in series with horizontal field, the receiving coil.
Quadrature Dial;'s calibrated in percentage mark ings and nulls the vertical quad rature signal in the vertical coil circuit.
By selecting a suitable transmitter station as a source, the EM 16 user can survey with the most suitable primary field azimuth.
The EM 16 has two receiving coils, one for the pick-up of the horizontal (primary) field and the other for detecting any anomalous vertical secondary field. The coils are thus ortho gonal, and are mounted inside the instrument "handle".
The actual measurement is done by first tilting the coil assembly to minimize the signal in the vertical (signal) coil and then further sharpening the null by using the reference signal to buck out the remaining signal. This is done by a calibrated "quadrature" dial.
The tangent of the tilt angle is the measure of the vertical in-phase component and the quadrature reading is the signal at right angles to the total field. All readings are obtained in per centages and do not depend on the absolute amplitude of the primary signals present.
The "null" condition of the measurement is detected by the drop in the audio signal emitted from the patented resonance loudspeaker. A jack is provided for'those preferring the use of an earphone instead.
The power for the instrument is from 6 penlight cells. A battery tester is provided.
Oct/73
CRONE GEOPHYSICS LIMITED
3607 WOLFEDALE ROAD, MISSISSAUGA, ONTARIO, CANADA.
Phone: (416) 270-0096
^
FIELD STRENGTH meterBATTERY test and "STEADY 1 or "KEYED" signal switchesINCLINOMETER
FIELD STRENGTH range switch
VOLUME CONTROL ON-OFF switch
STATION SELECTOR switch
BATTERY COMPARTMENT (inside)
CONDUCTOR DIRECTION ARROW SPEAKER
This is a rugged, simple to operate, ONE MAN EM unit. It can be used without line cutting and is thus ideally suited for GROUND LOCATION OF AIRBORNE CONDUCTORS and the CHECKING OUT OF MINERAL SHOWINGS. This instrument utilizes higher than normal EM frequencies and is capable of detecting DISSEMINATED SULPHIDE DEPOSITS and SMALL SULPHIDE BODIES. It accurately isolates BANDED CONDUCTORS and operates through areas of HIGH HYDRO NOISE. The method is capable of deep penetration but due to the high frequency used its penetration is limited in areas of clay and conductive overburden.
The DIP ANGLE measurement detects a conductor from a considerable distance and is used primarily for locating conductors. The FIELD STRENGTH measurement is used to define the shape and attitude of the conductor.
SPECIFICATIONS
Source of Primary Field: VLF Communication Stations 12 to 24 KHz
Number of Stations: 7 switch selectable
Stations Available: The seven standard stations are Cutler, Maine, 17.8; Seattle, Washington, 18.6; Collins, Colorado, 20.0; Annapolis, Md., 21.4; Panama, 24.0; Hawaii, 23.4; England, 16.0. Alternative stations which may be substituted are: Gorki, Russia, 17.1; Japan, 17.4; England, 19.6; Australia, NWC, 22.3 KHz.
Check that Station is Transmitting: Audible signal from speaker.
Parameters Measured and Means:(1) DIP ANGLE in degrees, from the horizontal of the magnetic component of the VLF field. Detected by minimum on the field strength meter and read from an inclinometer with a range of 80" and an accuracy of Vi 0 .
(2) Field Strength (total or horizontal component) of the magnetic component of the VLF field. Measured as a per cent of normal field strength established at a base station. Accuracy 296 dependent on signal. Meter has two ranges: O 3009fc and O 60096. Switch for "keyed" or "F.S." (steady) signal.
(3) Out of Phase component of the magnetic field, perpendicular in direction to the resultant field, measured without sign, as a per cent of normal field strength. This is the minimum reading of the Field Strength meter obtained when measuring the dip angle. Accuracy 296.
Operating Temperature Range: — 200 to +1100 F.
Dimensions and Weight: 3.5" X 7.5" X 10.5" — 6 Ib.
Shipping: Foam lined wooden case shipping wt. 15 Ib.
Batteries: 2 of 9 volt: Eveready 216, Burgess 2U6, Mallory M-1604
Average life expectancy 3 weeks to 3 months dependent on amount of usage.
Units Available on a Rental or Purchase Basis. Contract Services Available for Field Surveys.
Ministry ofNorthern Developmentand Mines
Ontario
Geophysical-Geological-Geochemical Technical Data Statement
File_
TO BE ATTACHED AS AN APPENDIX TO TECHNICAL REPORTFACTS SHOWN HERE NEED NOT BE REPEATED IN REPORT
TECHNICAL REPORT MUST CONTAIN INTERPRETATION, CONCLUSIONS ETC.
Type of
Township or Area.
Claim Holder(s) ——
Geophysical (VLr-EM)CCKfc TOWn*H1 p (K- "l 962)
Canadian Nickel Company LimitedCopper Cliff, Ontario POM l NO
Survey Company Canadian Nickel Company L imitedAuthor of Report Ei^. c/c Can,?cMan Mickel Cor^anyAddress of Author Li.j!l *3d)
Covering Dates of Survey Nov^raaar 14-16. 1987(linecutting to office)
Cliff, Ontario PG": INC
Total Miles of Line Cut. 20 lui
SPECIAL PROVISIONSCREDITS REQUESTED
ENTER 40 days (includes line cutting) for first survey.
ENTER 20 days for each additional survey using same grid.
DAYS— L - i Per claimGeophysical
— Rudiometrir-Othpr
fleolngirnl
AIRBORNE CREDITS (Special provision credits do not apply to airborne surveys)
. Radiometric ———.Magnetometer. . Electromagnetic
DATE:.Jan. 11, 190B
(enter days per claim)
SIGNATURE:.Auttior of Report or Agent
Res. Geol. .Qualifications.
Previous Surveys File No. Type Date Claim Holder
MINING CLAIMS TRAVERSED List numerically
(prefix) (number)
.7M111
.744434.
.744437.
..7.44S5S.
7.4455ft. 744S60
..744S61.
.J44S&1.
.744565-.
TOTAL CLAIMS.
837 (85/12)
SELF POTENTIAL
Instrument——————————————————————————————————————————— Range.Survey Method .-^^—^———^^——^——^^^——^————-^^^^^——^^^-^^^-—
Corrections made.
RADIOMETRIC
Instrument.
Values measured.
Energy windows (levels)—^——^^—^——^———^———^—————^-^^^^—.—^^^.^^^—.—
Height of instrument_______________________________Background Count.
Size of detector^—^——^——^.^--^^————^—-^^^-..-——^^^^-—————^—^^-.———^^^
Overburden ——^^—^^——^^-^^—————^—^^-————————.^—^^—————^^^——(type, depth — include outcrop map)
OTHERS (SEISMIC, DRILL WELL LOGGING ETC.)
Type of survey^^^—.—-^^^^^—-——^^^—^^———
Instrument ^^—.——^^—————-.^^^—^^^—-——.
Accuracy^————^—-———^——^————^-^.—^—
Parameters measured.
Additional information (for understanding results).
AIRBORNE SURVEYS
Type of survey(s)———
Instrument(s) ——————(specify for each type of survey)
Accuracy—.^—^^—^-———^——^-.(specify for each type of survey)
Aircraft used-———^^--—.-—-—^—^^—^—..^-^-.——^—^—-^.^—
Sensor altitude-
Navigation and flight path recovery method.
Aircraft altitude__________________________________Line Sparing
Miles flown over total area___________________________Over claims only.
GEOCHEMICAL SURVEY - PROCEDURE RECORD
Numbers of claims from which samples taken.
Total Number of Samples. Type of Sample-
(Nature of Material) Average Sample Weight————————
Method of Collection—————————
Soil Horizon Sampled.
Horizon Development-
Sample Depth————
Terrain-^—^—^^^—
Drainage Development————————————
Estimated Range of Overburden Thickness.
ANALYTICAL METHODS
Values expressed in: per centp. p. m. p. p. b.
n n n
Cu, Pb,
Others —
Zn, Ni, Co, Ag, Mo, As,-(circle)
Field Analysis (.
Extraction Method.
Analytical Method-
Reagents Used ———
Field Laboratory Analysis
No. ——-.—.—-.——
SAMPLE PREPARATION(Includes drying, screening, crushing, ashing)
Mesh size of fraction used for analysis.———.
Extraction Method.
Analytical Method .
Reagents Used——
Commercial Laboratory (.
Name of Laboratory —.
Extraction Method-——
Analytical Method-——-
Reagents Used^—-^—
.tests)
.tests)
.tests)
GeneraL General -
GEOPHYSICAL TECHNICAL DATA
GROUND SURVEYS — If more than one survey, specify data for each type of survey
Number of Stations ———^3——————————————————————Number of Readings _____613
Station interval ______^5 m^———————————^————Line spacing__________100 P*
Profile scale________l C ') ** \ O0_______________________________________
Contour interval^^^-^^^————^^^—^^^-—^^^-^^——.^—^-^^—^^———^^^—.-^^^——^^.^^.—.
Instrument. Cj
o
yH
Coil separation Variable
o
>
rt
Cd
Accuracy — Scale constant.
Diurnal correction method.
Base Station check-in interval (hours).
Base Station location and value -———
Instrument ___Crona-fraderot teenies EM-16Coil configuration Vertical Loop
S O oiZ(d
(specify V.L.F. station)Cd
Accuracy _______j^ l^^-^—-—^^————^^^^————^^———^———-————.—^^—-^^—.^^^^—- Method: 8D Fixed transmitter CD Shoot back CD In line CD Parallel line
MSS - 21.4 KHz:. NAA - 24.0 KHz______________________________
Parameters measured.
Instrument.
Scale constant
Corrections made.
odBase station value and location .
Elevation accuracy.
Instrument ——^————...^———...—^-——.———^-——...—^^^—.—-.—^-^-————— Method CD Time Domain CD Frequency Domain
Parameters - On time ____________________________ Frequency ————
— Off time ____________________________ Range ————————
— Delay time ^—^
— Integration time.
Power.
Electrode array —
Electrode spacing .
Type of electrode .
L? rV:OV IV'P -
'- - 4 ' - - -" l'
- - - — ^ -' 's: *7*o*s V moo 1 *7*07*
. - - -*_-—4——— ' K72700* l 727004 1*72700* {7774* ,
V J--'---L- -V-4r- :' fl2MU l 7 37 OR l 797QI9 j /JWJI
5,. -: ^' - -; '.-,, "'' e ^s***! i ^780M ' V
-r: i , iKUM
n~ ~ IK"•28WI |S28I97
,'jl780a2 l 978066 l ^ l^__,- " | p5 l |
' 9^*6aor i 97**W ' 978078 l 978077 97688Z ~~*976889 97(8*2 !l j- l * l l I.I
978085 "8086,~
PL
CJ
k—* *BVr
O
' "- lg' ' ~ , " r* '-" -~
'l ';' 'i ** — -^-^a.!" " ' _ . _ — — "K"
^ ^ ** S-* - ^^.-T^'] ^.-7l5i70*J lW"'2 ^ S'^"-
1 i 10170* ' IOI7 **3 (OOSapS, 1 X
O . | S^' l
U.TT ~"~|iT ~ "" "T ~ ~ TT^ Z 0707 101704 100400. i M^- l! ' p
r~- TT ~ ~tlT "~- ~V ~~ "Mf•WTO4 j (OTTOS '017678
1
1 -,J---.-L
2SIS9 868383 IK KIMSM* "s**'! '"MO
^r^^^rfo^too^o-—— : '•'•,' /' 1
1^-— x li '
K)3*M 1004001 1004002' IOO4OOS1 1004OO4' v;. i !•— — rjf— —ir — — I"JT — — |j{-— .,-I040H) i 100400* '004007. 100*008 ' '004*08
i— fj-~ — *^^ C 1 l
— J. — "D-rr-^-U-.:^ 1 — —\017*7* MOI7HO 'OI7OI IJOOAOf ''00*0(2
i '' L- " —
.--U-J ---T-J-,.
—— —— ^ ,- - K -K K | K'97077 *--|8-4 "6864 I9708S {976866 '976872
' 97687* J'687I i 376869 | 376868 *3 76867
1 ' 1
! ' Li1
*
1
J ~ ^I^i-"^" "* -'J ----, - " i* /i, ~ — - */J": ,-''"'^
c
T)
THE TOWNSH! 0 OF
C O D;DISTRICT OF
K L" K O R /-.
i' riv c r*/MINING* DIVISION
SCALE: MNCH^4O CHAINS
L. FIG T f
t K..f.
i r
U.
c-' cr -: rsF'C iTS
tR i *u. *. AYS
l 'l.1 r.'H Of
- -IS
tt
i
d -
c.L.
O1tt 52E*asE0am a.i0733 CODE
j *. - t ' ^- .
200
-X' C - - -
"X
MocOuorrie Twp.-M.1966
rEFFECTIVE AS LINEN
K E .-J O S /'
li ,
\ 7 a D -0111-:^ 2'3 i-s
O l A KJ
DEPARTMENT OF MINES
- ONTARIO -t k
K 744434large Granite boulder field
small Poplar
K 744560 K 744561
l d iscontinuous o/c \
BASE LINE 0900
rh* ,——-T BSC-85-86
4c,3gf*/BSC-85-87
K 744559K 744558
LEGENDFELSIC - INTERMEDIATE INTRUSIVES
ABC-85-59 X--/RX073334U5)
K 744562Undifferentiated ABC-85-56/RX 073331K5)
A BC-85-57/RX 073332(^5) ABC-85-M/RX073333(<5)
WtlH* fronitt, BUtite quartz monzonite
MAFIC-INTERMEDIATE INTRUSIVES
Trap
Syenodiorite, Moizonite
Porphyritic gabbro
Chloritized gabbro mafic xenothsPyroxenite, Ultranafies K 744436 K 744437Rock outcropINTERMEDIATE to FELSIC VOLCANICS
Undifferentiated
Lapilli tuff — dacN
Geological boundary, observed
K 744432Quartz -(Fe) Carboiate- sericite schistGeological boundary, inferredSericite-Chlorite-Ce) Carbonate-Quartz schist
MAFIC to INTERMEDIATE VOLCANICS
90T l
Schistosity, cleavage, foliation (inclined, vertical, dip unknown ) RX083670K5) RX08367I{(5) .
RX083666J5) /l RX083667((5l H X083668(3)
RX083669K5)
UndifferentiatedFault defined, assumed
Pillowed basalt
Porphyritic basalt
Vy" Pillows
' Jointing inclined, verticalABC-85-55
RX 073330U5) .'RX 073348(10)
Chlorite -carbonate schist (iqtz) ABC-85-54 RX 073329 ^5)
RX083672K5) RX083673(<5) RX083674((5) RX083675((5) RX083676l(5) RX083677((5) RX083678(5)
* 8 ' clo lC2e Strong calcium carbonatization denoted by c subscripted
cp Chalcopyrite
py Pyrite
qtz Quartz
Ov Quartz vein
t) Tourmaline
3®BSC-85-75Diamond drill hole and dip
Drill CoreABC-85-65/RX 073341 {(5) ABC-85-66/RX 073342(5 ABC-85-67/RX073343N5)IIXL^.^- —4- RX083679U5)
RX083680(<5) RX08368IK5)
. . RX083682(5. /';3fl,d RX083683K5)
RX083684XS)
ABC-85-66 Identification - year . 8 a mpl. number letters Canadian Nickel Company Limited p00pMper .NCd" f Ontano
RX 07I798(*5) Sample number fossay value m ppb Gold)(unless noted otherwise)
GEOLOGICAL SURVEY (NORTH GROUP)
Project FORT KNOX GOLD RESOURCES, INCABC-85-63 RX 073339U5
Area CODE TOWNSHIP, ONT (M-I962)
Supervisor A AUBUTBSC-85-77/RX 073352110) BSC-85-78/RX073353IIO)
Survey date July, I985ABC -85 -60B/RX 073336 (18 lOppm)) Not on ourABC-85-6I/RX073337 (220) cloimt Drawn by RON JOHNSON
090 0
LEFT20 0 10" O I0 0 20 D RIGMT L l i ! . i l i . . , l J
I0500N
10000 N
9500 N
LEGEND
Tilt angle readings m degrees nght.left Station spacing 25m Profile scale Icm^ I00 Conductor STRONG MEDIUM WEAK
Canadian Nickel Company Limited Copper Cliff , Onlar o POM l NO
VLF ELECTROMAGNETIC SURVEYNORTH GROUP
SHEFT FIGURE
Geonics E M -16 Crone Radem
Proiect F ORT KNOX GOLD RESOURCES, INC
Supervisor A Aubut
Lornpii.d b v T Lang/W. Vanderklift j L)rj wr , n y W E.Marsaw
Scale l 2500
CODE TOWNSHIP, ONT
Survey dolt N OV., 1987
O.jlt drawnNov,l987
NTS 52E/9
52E09SE0ae8 3.10733 CODE 220