Physics & Astronomy Articulation Meeting

Friday, May 7th, 2010

Start: 9:30am—meeting called to order by Stan Greenspoon.

Margaret Heldman, Acting Dean of Instruction at Langara College, welcomed Articulation Committee members to Langara.

Name Institution Email James Brewer BCIT James_brewer@bcit.ca

Stan Greenspoon Capilano

University sgreensp@capilanou.ca

Mike Freeman Capilano University

mfreeman@capilanou.ca

Bernd Simson Capilano University

bsimson@ghiweb.com

Barbara Rudecki College of New Caledonia

rudecki@cnc.bc.ca

Vladan Jovovic Columbia College vjovovic@columbiacollege.bc.ca

Robin Macqueen Langara College rmacqueen@langara.bc.ca

Terry Coates Langara College tcoates@langara.bc.ca

Ben Pfeiffer Langara College bpfeiffer@langara.bc.ca

Yue Su Langara College ysu@langara.bc.ca

Tyron Tsui Langara College ttsui@langara.bc.ca

Dennis Lightfoot North Island College

Dennis.Lightfoot@nic.bc.ca

Mahmoud Ziaei Northern Lights College

mziaei@nlc.bc.ca

Richard Christie Okanagan College rchristie@okanagan.bc.ca

Per Joensen Selkirk College pjoensen@selkirk.ca

Normand Fortier Thompson Rivers University

nfortier@tru.ca

Arnold E. Sikkema Trinity Western University

asikkema@twu.ca

Daniel Murray UBC Okanagan daniel.murray@ubc.ca

Arthur Watton UVIC awatton@uvic.ca

Michael Wortis Alexander College wortis@sfu.ca

Matt Reid UNBC mreid@unbc.ca

Jennifer Kirkey Douglas College jkirkey@douglas.bc.ca

Tom McMath Kwantlen Polytechnic University

tom.mcmath@kwantlen.ca

Mike Hayden SFU mhayden@sfu.ca

Norm Taylor UFV norm.taylor@ufv.ca

Paris Polydorou Vancouver Island University

paris.polydorou@viu.ca

Andy Sellwood Vancouver Community College

asellwood@vcc.ca

Jim Bailey College of the Rockies

BAILEY@cotr.bc.ca

Ed Nelson Camosun College Nelson@camosun.bc.ca

Janusz Chrzanowski

Coquitlam College janusz999@shaw.ca

Beverly McLeod Science World beverly_m@telus.net

Eric Turner Northwest College eturner@nwcc.bc.ca

Mike Hasinoff UBC hasinoff@physics.ubc.ca

Fran Bates UBC elf@physics.ubc.ca

1. Introductions

Committee members and other attendees introduce themselves. 2. Approval of Agenda

Approval of the agenda as published was moved by Matt Reid (UNBC) (seconded byJennifer Kirkey (Douglas College)) and passed unanimously.

3. Approval of minutes:

Approval of the 2009 Articulation Meeting minutes as published online was moved by Robin Macqueen (Langara College) (seconded by Norm Taylor(UFV)) and passed unanimously.

4. Matters arising from minutes

Stan Greenspoon asked that any corrections/changes to the Textbook Lists/Articulation Charts be sent to him at sgreensp@capilanou.ca. The current list is online at the Articulation Committee website.

5. Future meetings:

2011 meeting: May 6th, 2011, Friday, at UBCO confirmed.

2012 meeting: UFV will host 2012 articulation meeting on May 4th 2012, Friday, maybe on Chilliwack campus. [It will likely be at the Abbottsford Campus]

6.

The position is still unfilled. Tom McMath mentioned th

Search for System Liaison Person (SLP)

at it is an important s for

7. BCCAT Issues

bers are encouraged to read the Articulation Companion

position that can assist the committee in many ways. Please send any ideacandidates to Stan. Ideally the person should be a Dean or a senior person at the Administration Level.

The committee memdocument at http://www.bccat.ca/articulation/companion/index.cfm

The 1-year deadline on articulation requests is working well. A list of the current requests is attached to the meeting package and committee members are encouraged to resolve them by answering the pending requests.

Recommended to have all course transfer information put on your course outlines (ideally put a weblink to the BCCAT website in order to avoid confu

Tom McMath mentioned that there are problems getting the correct wording of a

sion)

t

ersity has joined BCCAT so members may hear from that institution regarding course transfers.

course description and its transfer status on the BCCAT website (mentioned an example for an engineering course at Kwantlen). Other members responded thait is usually up to the receiving institution to deal with that so members should work with that institution for any corrections.

Stan informed the group that Athabasca Univ

8. Round table reports/brief discussions of significant curriculum chand associated issues: - see Appendix - Departmental Repor

anges ts

rnoon discussion topics (see items #14-#16

ysics (Dennis Lightfoot – North Island College)

the articulation and transfer status for remote fer these

e

n guides of Science

.

rs in Physics and Astronomy (Stan Greenspoon-Capilano niversity

in the There was also discussion about the methods of delivering the

10:30-11:00 Coffee break.

8. continued round table reports (see above)

9. Proposals for additional aftebelow)

Lunch Break from 12:15-13:30.

10. Web-based ph

There was much discussion aboutweb-based Physics Labs. North Island College is now in a position to oflabs but needs transfer status granted in order to run them. It will be up to individual institutions to evaluate these labs and decide on transfer status.

Dennis Lightfoot put forward the following motion: “The Physics and Astronomy articulation committee supports the North Island College piloting a web-based physics course, including remote controlled web-based labs for students who are not able to attend scheduled labs. Thcommittee encourages receiving institutions to give appropriate consideration to these students for transfer credit.”

The motion passed (with 2 abstentions and nobody opposing).

11. Science World (Beverly McLeod-Science World)

Beverly McLeod presented an idea to the committee. She proposes to develop both online downloadable physics exhibits and exploratioWorld exhibits. She would like more college classes to visit Science World and hopes to develop resources for this purpose. She asked for feedback on this idea and will be sending out a survey to the BC Association of Physics TeachersShe will take all feedback to Science World in hopes of gaining approval of this project.

12. ClickeU

There was a general discussion about the pros and cons of using clickers classroom.

clicker experience. It was noted that you can download great clicker questions from MIT and the University of Colorado.

13. Physics Lab Grade & Course Pass? (Mike Freeman/Bernd Simson-Capilano University)

for passing the course. No motions or action

e Round Table discussions.

leasure of the committee in regards to t

hat shows if a course was taken at an e a

based on Provincial Exams (Mike Hasinoff-UBC)

r if

There was a general discussion about physics lab grades and whether passing the labs should be a requirementitems resulted.

14. Institution Support for attending Articulation

This item was a result of an issue that arose during thOne of the committee members paid his own way to the Articulation meeting as their institution would not provide funds for this. This was a surprise to the committee as the government provides money to individual institutions for this exact purpose.

It was decided that the Chair of the Physics Articulation Committee will send a letter to BCCAT expressing the strong dispthis issue. It is hoped that BCCAT will communicate to individual institutions thathey are given money with the express purpose of sending people to articulation meetings. [Letter was sent and a reply received from the Executive Director of the BCCAT]

15. High school transcripts do not specify if courses were taken on-site or off-site (Mike Hasinoff-UBC)

Mike informed the committee that Ontario Universities are now requiring that high-school transcripts carry a notation toff-site location. There are off-site schools/programs where a student can takcourse and then have the school district include that mark on a high-school transcript. This has raised concerns about grade inflations and the quality of instruction.

It was generally agreed that the committee that it is up to each institution to set its own admission policy.

No action items/motions resulted from this discussion but it led to the discussion of the next topic.

16. Scholarships

There are concerns that scholarships are being given in an unfair mannestudents have taken an easy off-site course and/or had their grade inflated. This

has become more of a concern since most post-secondary institutions no lonrequire Provincial Exams.

The following motion was presented:

ger

“That committee members suggest to their Deans/Administrators that scholarships should be awarded based on

eld at Langara College

der College

Grade 11/12 Provincial Exam marks”.

The motion passed unanimously (with one abstention)

Members were reminded of the BCAPT meeting being hthe next day (Saturday, May 8th, 2010)

The meeting was adjourned at 3:10pm

Appendix - Departmental Reports

Alexan

Alexander College is a small private rnaby near Metrotown. We will move to a new location at 602 West n Vancouver in the fall of this

g in

sals are (SASC) and are then offered as demand

ity physics courses. Both SFU and UBC have courses of this

the ctive of providing a high level of individual support. Each of these

college now located in Bu Hastings Street in downtow

year. We have an enrollment of about 500 students (fall 2009) and we are growing. We cater toa niche market of mainly foreign students, many of whom lack Canadian language and cultural skills. We offer intensive language training along with a limited menu of first- and second-year foundational university courses, which are taught in small classes with a lot of individual support and attention. These courses are designed for transferability and are supposed to be at a level fully equivalent to corresponding courses at SFU, UBC, U. Vic., UNBC, etc. I am told that Alexander College students who transfer to other Canadian universities have been quite successful. Courses which have been offered up to now include biology, commerce, computerscience, economics, English, history, math, philosophy, psychology, and sociology. Teachinthese courses is done by sessional instructors who work under the general supervision of academic professionals in each field (I’m an example.)

In this context, I’ve been asked to prepare curriculum proposals for physics. These propopassed by our Standing Academic Standards Committee and enrollment allow. So far, there is only one approved course, and that course, PHYS 100 (see your file), has not yet been taught.

PHYS 100 is a designed to prepare students who have not previously passed BC Physics 12 or equivalent to take 100-level universtype. Ours is designed following the SFU model and to be taught in a “studio” format. At SFUthis course carries 3 hours of university credit but does not count towards the physics part of a physics degree. We plan next to offer PHYS 101-102: Physics for the Life Sciences, and, after that, a fully calculus-based sequence suitable for physics concentrators and other students in science and engineering programs.

It is my proposal to offer all of these courses in a “studio” format, which (I feel) fits well withAlexander College objecourses will provide a full integrated laboratory experience. I have been promised a “physics room,” in which these courses will be offered, including storage space for lab equipment and

some technical laboratory support in set-up/tear-down. The space will be used for other courses when it is not needed for physics. Similar arrangements have been made for Biology and Chemistry. It is certainly my mandate and my objective to provide university-level quality. Onlytime will tell whether we will succeed. --------------------------------------------------------------------------------------------------------------------

BCIT

The Physics department at BCIT has 11 full ty, 3 technicians, and teaches around 1000 students in 22 different technologies.

en the implementation of cuts required to balance the stitute’s budget. The department is left with 11 faculty and 3 technicians following a layoff

e articulated calculus based physics courses 110 and 2110) that were part of this program will be offered as evening classes. It is foreseen

ient

-----------------------------------

time facul

The past academic year at BCIT has seInavoidance strategy consisting of 2 retirements (1 faculty, 1 technician) and 1 faculty workloadshared with mathematics and computer systems. The degree transfer program was cancelled, and th(1that these courses will be mainly taken by students who failed the calculus based Civil Engineering physics courses, and by prospective Radiation Therapy and Biotechnology studentswho require an articulated Physics course as a prerequisite. Whether there will be sufficdemand for these courses to allow them to run has yet to be seen.

-------------------------------------------------------------------------------Camosun College

) Physics courses and firEnrolment in college prep (Access st year Physics courses were up substantially (20%) in 2009 Fall compared with the previous year. Enrolment in Astronomy

, we closed our second year courses with the retirement of John Pratt. We attempted a major recruitment drive amongst first year students to revive the enrolment in second

ng, the department decided to cancel the 2nd year courses at Camosun. During the last few years, the administration permitted low enrolled sections to run only if faculty

s transfer to UVic), we now offer only PHYS 104/105 (algebra based) and PHYS 114/115 (calculus based). We offer Physics for engineers

courses (ASTR 101 and ASTR 102) was also high, with large waitlists. Engineering Technology programs took in additional students, which translated into full sections of first year Physics for engineers as well.

Back in 2008/2009

year courses in 2009 Fall. This was initially fairly successful, with enrolment of 12 students in PHYS 200 (Mechanics/Relativity). However, only 8 students finished the course, and in the next semester only 4 students were enrolled in the remaining second year courses, PHYS 210 (E/M) and PHYS 215 (QM).

After much soul-searchi

taught overloaded sections or labs for free. We felt that with enrolments typically in the <10 range, this was no longer justified or sustainable.

In the University transfer program (most student

(PHYS 154/191/192), and 2nd year courses for Engineering Bridge Programs (which prepare students for 3rd year engineering at UVic and UBC).

We have been asked to prepare two new courses for a proposed Medical Radiology Technology program coming to Camosun College in 2011. These new Physics courses will be structured on existing Radiology courses currently being taught at BCIT-Physics. One of our faculty will be

).

working closely with instructors at BCIT in coming months to learn the new material for these courses, which we anticipate to be quite demanding.

We continue to teach Physics labs for local High School students who are enrolled in their Grade 12 Physics AP courses (both “B” and “C” Mechanics

Capilano University

We are currently offering first year courses only, including astronomy:

104 – a prep course, with lab, for stude sics

110 / 111 – a stream intended for students who need only one year of physics, e.g. pre-med etc, calculus course

116 – a course only for engineers, which, with 114 / 115, makes up the complete first year

over the last year, but still below the highs in 2003.

-----------------------------------------------------------------------------------------------------------

nts with no previous phy

using a noncalculus text, but requiring an accompanying

114 / 115 – a stream for students who would take more physics, mostly engineers, using a calculus text

Both 110 / 111 and 114 / 115 have a common 2-hour weekly lab.

package

Astr 106 / 107 - one course, offered with and without lab (lab has not enrolled in recent years)

Enrolment has been steady

College of New Caledonia

Firs

CNC continues to offer first year Engineering Transfer Program. This year the enrollment both in at the same level as last year.

• Physics 101 (Introductory Physics I) – 35 students

tes

t Year Engineering Transfer Program

Applied Science and Physics courses was near

• APSC 100 (Introduction to Engineering) – 23 students • APSC 120 (Engineering Drawing with AutoCAD) – 25 students

• Physics 102 (Introductory Physics II) – 20 students • Physics 105 (General Physics I) - 25 students • Physics 106 (General Physics II) - 14 students • Physics 204 (Mechanics I - Statics) – 12 students

Medical Laboratory Technologist Program – First Gradua

15 CNC students enrolled in the college’s first-ever medical laboratory technologist program graduated this spring. The MLTS program’s current class features 23 students and the third class

Opening in a Fall 2011

B.C., across the province and

the number of engineering technologists and degree graduates serving the north. The thorough labor market research was completed by the Applied T

just began in January with 24 students.

New Medical Radiography Program -

There is a severe shortage of radiography technologists in northernnationally. A new Medical Radiography Diploma Program will be opened at CNC in a fall of 2011. We already have more than 230 people on an interest list for 16 seats. CNC's program will be based on the BCIT model, which is currently being revised.

Civil Engineering Technology Initiative

The purpose of this initiative is to increase

echnical Education & Engineering Consortium (ATEEC) in spring 2009. Civil and Mechanical Engineering are two of the areas identified in the ATEEC study as having the highest demand in this region. In response to industry needs, CNC and UNBC plan to offer appropriate engineering

certificate, diploma and degree programs. --------------------------------------------------------------------------------------------------------------

College of the Rockies

ics at College of the Rockies forRichard Hewko, who taught phys 23 years, retired a year ago at

to

ollege of the Rockies and Selkirk College have been negotiating cooperatively offering courses.

which time I took over his teaching duties. Richard and I team-taught the combined Math-Physics courses at the college for many years so the transition was quite smooth. This year we offered ASTR 100 (Astronomy) which tends to be taken mainly by students who wish to qualify for the UVic Elementary Teacher Education Program. We also offered PHYS~103--104 (IntroductionPhysics, Calculus). Next year we will not offer the Astronomy course but will offer our two second year Physics courses, PHYS 201 (Analytical Mechanics) and PHYS 202 (Introduction to Modern Physics).

COne institution would be responsible for the lectures, teleconferencing (or whatever technology is considered most appropriate) to the other college. Each college would provide tutorial support to their students; labs might be handled separately or we could bus students to one location so the whole class could do them together. ----------------------------------------------------------------------------------------------------------

Columbia College

In 2009/10 Columbia College has ru ee of them at the UT level and two high school Physics:

110 (first part of the calculus based General Physics)

n five Physics courses, thr

Physics

Physics 120 (second part of the calculus based General Physics)

As for the enrollment at UT courses, it was very high in Physics 110 (full section for lecture and

s 200 (Introduction to Modern Physics).

ics 11 is low, but still acceptable, while the number of students in our Physics 12 section is stable.

tudents’ interest, Columbia may try to introduce other Physics courses in the future.

Coquitlam College

Physics 118 (Engineering Mechanics)

Physics 11

Physics 12.

two sections for labs) and stable in Physics 120. The College offers both courses three times per year. Physics 118 is on the time table again, and we noticed a significant increase in enrolment, if compared with the Summer 2008, when this course was offered last time.

For the first time, the College will offer a second year course– Physic

Enrollment in Phys

Depending on the s

---------------------------------------------------------------------------------------------------------

There have been no major changes i Coquitlam College in the past

ear. We offer the 1st year calculus-based courses of Physics; Physics 101 (mechanics) and

n the Physics curriculum atyPhysics 102 (electromagnetism and optics). Physics 101 is offered twice a year in the Summerand in the Fall semesters, Physics 102 is offered once a year in the Spring semester. The enrolment so far has been good and stable. As a rule the classes of Physics 101 are full (20-21 students), and the number of students enrolled in of Physics 102 range from 12 to 14.

---------------------------------------------------------------------------------------------------------------- Douglas College

Douglas College has had no major ch nrolments are steady. We have had a

s t

c thi e

anges since last year. Enew President and a new Dean for almost a year now, a brand new Vice President of Education.

The college is undergoing a Strategic Planning Process which will likely lead to changes over the next year or two. Douglas is in the process of implementing a time table software called

InfoSilum and it is not going well.Our David Lam campus is Coquitlam is doing well overall ince all the Health Science faculty were moved out there a year and a half ago. University

ransfer courses, an in particular the science courses, have had small numbers and many classescancelled to the extent that you cannot complete first year science at that campus. I predict

hanges within the next year - either a big increase with a complete plan or further cuts. I do notnk it will be status quo. It was refreshing, though sad, to hear of other institutions battling th

Registrar's computing system. --------------------------------------------------------------------------------------------------------------------

Kwantlen Polytechnic University

Enrollments in Math and P ny sections full. There was less problem with last minute registrations than last year.

making them into a more clearly differentiated life science stream. We believe we can do this within the current course

ys 1102

for

ys 1112 Reel Physics next fall. This non-science stream course focuses on common violations of physics principles in popular movies, as well as some

in guided study mode. We usually get some pretty good students, but in very small numbers.

rtium out of North Island College that is developing courses including labs to be offered to students in remote locations. The courses are quite

mote

ntion of developing and supporting our own degree programs. This gives opportunity for growth in all areas, but the catch

ransfer

---------------------------- Langara College

hysics courses were stronger this year, with ma

We are revising our Phys 1101 and restoring our Phys 1102, and

descriptions; reducing the mechanics component and the toughest EM parts, increasing the discussion of fluids, heat, and optics, overall increasing the life science applications. Phwas dropped a few years back, so both streams led into Phys 1220, which somewhat compromised what we could do differently with Phys 1101. The revised Phys 1102 will be offered again next spring. Our current Phys 1120 and 1220 will remain as the streamEngineering and physical sciences.

We will be running a new course Ph

illustrations of properly used physics.

Our second year courses continue to run

Kwantlen has participated in the conso

standard, and the labs are also standard in intent and content; the major difference is in the reoperation of the labs. This was reported at last year’s meeting.

In keeping with University status, Kwantlen has the definite inte

is that this is all supposed to happen within the existing budget. This leaves the status of tprograms such as Engineering and even the physical sciences unclear.

-------------------------------------------------------------------------------------

nrolments were strong in 2009-10. We have had waitlists for most of our courses. We filled five sections of our first-term calculus-based course PHYS 1125 in Fall 2009, two more than

0

tivity and Quanta ran in the fall with 6 students, and Newtonian Mechanics in the spring with 12 students. The second-year

E

usual (though we had to cancel our course intended for biology students due to low enrolment).Currently, we have waitlists for six of our seven summer 2010 courses. Prospects for Fall 201are good: Arts & Sciences applications are up 18% over last year.

We ran a second-year physics program (after a 3-year hiatus). Rela

lab ran both semesters, with enrolments of 6 and 4.

For the first time this year we are running our grade-11-level course, PHYS 1114, as a 6-week compressed course in May and June. It is full, with 20 on the waitlist.

We again ran astronomy courses in pairwise fashion, with 3 common and one distinct hour per week, and common lab: ASTR 1101/3310 in Fall, ASTR 1102/3311 in spring.

---------------------------------------------------------------------------------------------------------- North Island College

North Island College offers first-year physics (both calculus based PHY 120/121 and algebra based PHY 100/101) at three campuses. Enrollments were up slightly this year at the Courtenay campus, but remain low at Campbell River and Port Alberni.

This year NIC also delivered PHY 141 – Engineering Mechanics I, which transfers to UVic’s Faculty of Engineering. It is hoped that a new Engineering Transfer program will attract students on the North Island wishing to start their Engineering education closer to home.

NIC also offers two first-year courses in Space Science and Astronomy (SSA 100 and 101). These courses are web-based, and make use of the remotely controlled telescope near the Bella Coola Centre.

Current textbooks for our physics courses include the following:

Course Title Edition (year)

Author Publisher

PHY 100/101

College Physics 8th (2009) Serway, Vuille and Faughn

Brooks/Cole

PHY 120/121

Physics for Scientists and Engineers

7th (2008) Serway and Jewett

Brooks/Cole

PHY 141 Engineering Mechanics: Statics 12th (2010) Hibbeler Pearson

Two faculty members have been developing online versions of our courses for BC Campus for the past two years. The greatest challenge has been to design laboratory exercises that could be done remotely, but collected real data in real time from real interaction by the students. The laboratory exercises created are a combination of at-home experiments that can be completed with a lab-kit, and remote web-based science laboratory (RWSL) experiments which use web-cams and remotely controlled equipment. The developers would like to run a first-offering of the web-based course starting in September, but administration would like assurances that transfer credit would be given by BC Universities.

The rationale for recognizing these labs is summarized as follows:

1) NIC’s web-based PHY 100, 101, 120, and 121 are identical in content to their face-to-face versions. Students in the web-based classes will meet the same learning outcomes as students in the f-to-f classes. Lectures will be accomplished with web-based material delivered through Blackboard which will include all the student-instructor and student-student interactivity that Blackboard offers.

2) Labs: Labs are equivalent to labs that students will do in an f-to-f format. All labs are assessed through student written lab reports just as they would be if the labs were performed on campus. There are 2 different delivery modes used :

a. DIY Labs: The labs (In PHY 100/120: Measurements and Experimental Errors, Vector Addition of Forces, Torque and Rotational Equilibrium, The Simple Pendulum; In PHY 101/121: Basic Electric Circuitry, Kirchhoff’s Rules, Capacitance) are supported by a lab kit that the student will purchase with their books. Students will do their actual lab work at home and interact with their instructor and lab partners through Blackboard, phone, Skype, face-to-face or a combination of these and other methods.

b. RWSL Labs: The Remote Web-based Science Laboratory (RWSL) allows students to interact with their lab partners on-line, to interact with actual lab equipment in real time, and collect real world data. The RWSL labs (In PHY 100/120: One-Dimensional Motion, Conservation of Energy, Conservation of Momentum, Oscilloscope and Speed of Sound; In PHY 101/121: Wave Optics, Geometric Optics, Electron e/m Ratio, Magnetic Forces, Atomic Spectra) are scheduled using RWSL. At the scheduled time, the lab group (or single student) will connect to RWSL through the Internet. Control of the lab equipment through RWSL will be rotated between the various lab partners until everyone has had a chance to control the experiment. Control is achieved using LabVIEW virtual instruments (VI) that allow students to control cameras, robotic sliders, the robotic arm, voltage settings, etc. Students can watch the experiment as data is collected so they can take pertinent spatial measurements and observations that might affect the outcome, and unlike in the lab, they will be able to play back an experiment run to analyze how something moved. …

As such, we would like to make the following motion:

“The Physics and Astronomy Articulation Committee recognizes that some students from North Island College may be completing their lab work in PHY 100, 101, 120, and 121 remotely and over the web. Whereas the learning outcomes of the two versions of these courses are identical to their lecture based versions, transfer credit will continue to be granted for these students”.

------------------------------------------------------------------------------------------------------------------ Northern Lights College

1. No major changes.

2. Enrollments were strong this past academic year.

3. Calculus based physics was offered using the text Fundamentals of Physics, 7thed.by Halliday, Resnick, and Walker published by John Wiley.

4. Algebra based physics (Physics for Geomatics) was offered with 14 entry students with half of them completing and some expected to transfer to BCIT Geomatics. The textbook

used was “College Physics” 8th edition by Serway/Vuille/Faughn published by Brooks/Cole.

There was no articulation budget allocation this year. -------------------------------------------------------------------------------------------------------

Northwest Community College

No change for 2009-2010 ------------------------------------------------------------------------------------------------------------

Okanagan College

Our numbers overall are close to static this year in Science at Okanagan College (-2%). Applications for next year are up (+21%).

The numbers in Physics at Kelowna this year were down for both streams (-23% calculus-based and -26% algebra-based). Our Physics numbers in Penticton were up nicely (+54% algebra-based), static in Salmon Arm (0% algebra-based) and up in Vernon (+40% for calculus-based and +8% algebra-based). Attrition in first-year physics was not a major problem this year. Most of the attrition still occurs in the first semester.

The numbers in Astronomy were static at all campuses (Kelowna -3%, Vernon -8%, and Penticton 0%). We ran Astronomy in Penticton for the second time this year and it held its own. The overall numbers in Astronomy in both Vernon and Penticton were fairly low.

This year saw our fourth year for offering second-year courses at Okanagan College. We planned to offer the Modern Physics (OC PHYS 200), second-year Classical Mechanics (OC PHYS 228), Statics and Dynamics (OC PHYS 202), plus our two second-year labs (OC PHYS 219/229). Due to very low enrolments we had to cancel three of the five second-year courses (PHYS 228, 219, and 229). The remaining two courses had low enrolments (2 and 4 students each respectively). I

do not know how long we will be able to hang onto the second-year courses with those enrolments. I suspect one more year yet again or until we have a retirement. We will offer the

same courses next year plus one of the second-year interdisciplinary courses for Arts and Science (History of Cosmology). I expect to see a shift away from the regular second-year Physics

courses to second-year interdisciplinary service courses to other sciences in order to keep some second-year presence in Physics (e.g., We have four interdisciplinary second-year courses. They

are Environmental and Energy Physics, Biophysics, Geophysics, and History of Cosmology.) -------------------------------------------------------------------------------------------------------

Selkirk College Selkirk College continues to run most of its usual complement of physics courses, including algebra-based and calculus-based first year courses (PHYS 102, 103, 104, 105), second-year engineering statics and dynamics (PHYS 200 and 201), second-year modern physics (PHYS 210: Relativity & Quanta), as well as an ever-popular introductory astronomy course with a laboratory component for non-science majors (ASTR 102). Our second-year course on electricity & magnetism (PHYS 202) was not

offered this past year, and probably will not run next year, due to a shortage of qualified students. I did have 9 students in PHYS 210 last semester; that’s a good number for Selkirk. We have no eliminated or new courses in physics or astronomy.

---------------------------------------------------------------------------------------------- SFU Physics

1. Enrollment continues to climb across the university, including in physics. 2. Budgets continue to shrink. It is unlikely that that we will be able to hire more than two or

three sessional instructors per term over the course of the next academic year. Once again, we will not be able to run our Teaching Apprenticeship program.

3. During the International Year of Astronomy we ran a very successful Starry Nights program that saw more than 2000 participants.

4. Enrolment in our Breadth courses for non-science majors (PHYS 190 Introduction to Astronomy & PHYS 192 Logarithm and Blues) is stable at around 150 each.

5. No curriculum changes are anticipated for the coming year. 6. Our search for a more appropriate textbook for PHYS 101/102 (‘Physics for the Life

Sciences’ stream) continues. We examined Martin Zinke-Allmang’s “Physics for the Life Sciences” (Nelson) and Jay Newman’s “Physics of the Life Sciences” (Springer) very carefully, but in the end rejected both. We will go back to using Giancoli’s “College Physics” for 2010/11. Note this course has a 100-level biology corequisite.

7. At our Surrey campus we have always delivered our first-year calculus-based stream in an 8 unit studio format (PHYS 140/141) equivalent to PHYS 120/121/131. Next year we will offer a 6 unit studio-based version of PHYS 101/102 that will be equivalent to the regular lecture-based version of the course. Students requiring a first-year lab component will still need to take PHYS 130.

8. Retention of first year students continues to be an issue. We have now run a non-credit ‘early intervention’ program in parallel with first-year courses for three years. We plan to continue with this program, but fiscal constraints will force us to concentrate on PHYS 100 rather than all first-year courses.

9. We are concerned about the articulation of PHYS 100. Our course is intended to be a Physics 12 equivalent, but an increasing number of students are trying to take the course for an easy credit. The problem is confounded by a technical issue with the university’s registration system, which is admitting students with Physics 12. At the moment we have to deal with this problem by hand.

10. Textbooks

PHYS 100 Introduction to Physics Knight – College Physics (Custom Ed.)

PHYS 101/102 Physics for Life Sciences Giancoli – College Physics

PHYS 120/121 Standard Physics Knight – For Scientists and Engineers

PHYS 125/126 Advanced Stream Halliday, Resnick & Krane – Physics, Taylor, Wheeler – Spacetime Physics, and Moore – Six Ideas

that Shaped Physics

PHYS 140/141 Studio Physics Cummings et al. – Understanding Physics

PHYS 190 Intro to Astronomy Chaisson/McMillan – A Beginner’s Guide

PHYS 192 Logarithm and Blues Hall – Musical Acoustics

PHYS 211 Mechanics Taylor – Classical Mechanics

PHYS 221 E&M for Engineers (terminal) Ulabi – Electromagnetics for Engineers

PHYS 231 & 233 Laboratories Taylor – Error Analysis

PHYS 255 Vibrations and Waves King – Vibration and Waves

PHYS 321/421 E&M Griffiths – Introduction to Electrodynamics

PHYS 285 Special Relativity and QM Tipler and Llewellyn – Modern Physics

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Thompson Rivers University

Enrolment for 2009-2010 (# of students writing Final exams)

Fall Semester

ASTR 114 – The Solar System: 107

PHYS 110 – Fundamentals of Physics 1: 109

PHYS 115 – Mechanics and Waves: 87

PHYS 151 – Applied Physics 1: 29

PHYS 158 – Physics for Respiratory Therapists: 69

Winter Semester

ASTR 115 – Stars and Galaxies: 95

PHYS 101 – Physics for Future Leaders: 28

Phys 120 – Fundamentals of Physics 2: 95

PHYS 125 – Thermodynamics, Electricity and Magnetism: 70

PHYS 161 – Applied Physics 2: 29

Texts ASTR 114/115 - Voyages to the Planets, Voyages to the Stars and Galaxies, 3rd ed (Fraknoi, Morrison & Wolff PHYS 110/120 -College Physics, Serway & Vuille, 8th ed PHYS 115/PHYS 125: Physics for Scientists & Engineers (7 ed.) - Serway & Jewett PHYS 158- Physics for the Health Sciences (3 ed.) - Nave & Nave

New course

PHYS 101 - Physics for Future Leaders

Calendar Description: Physics for Future Leaders focuses on key concepts in physics, emphasizing understanding rather than mathematics. Physics is introduced in the context of current events. Topics vary but may include terrorism and explosions, energy and environmental change, earthquakes and tsunamis, radioactivity and medicine, satellites and gravity. Other topics may be covered according to student interest and these may include: quantum physics and teleportation, relativity and cosmology.

Prerequisite: No prior physics or math required. Open to students in all degree programs. English as a second language students must have completed ESL Level 3 or higher.

Phys 101: Physics for Future Leaders This course is based on a course given at UC Berkley (Physics for future presidents). The course is aimed at primarily arts students, but does contain some very practical and interesting physics that, as the title suggests, should be understood by any future leader. Topics covered include: energy, radiation, nuclear power, nuclear weapons, waves (earthquakes, tsunamis), light (flavors and their uses), greenhouse effect and climate change. The course was evaluated in 4 parts: "surprise" quizzes, weekly summaries (articles in leading papers and public journals are summarized in 350 words or less. intended audience is a political leader), 2 midterms (multiple choice, short answer, essay) and one final. There were a few surprises for me in this course. First the enrollment was quite good - 35 students. However, attendance was really poor...there was a core set of 10-15 students, but the rest really only attended the tests. There literally were people at the last two tests who I did not recognize at all. This was certainly a new experience for me, but apparently is not uncommon amongst arts classes. The second surprise was the poor results on the multiple choice exams and surprise quizzes. I was prepared for "readers" and students who were quite happy memorizing things, but that was definitely not the case. Also they did not seem to be able to digest a broad range of topics. For example on the first midterm the essay topic was a choice of two, and was quite poorly done. On the second midterm I gave them the topics before hand, and then allowed them to choose on the test and the results were better. For the final I allowed them to choose the topic and write it at the exam, expecting a 400-500 word essay. The writing and content was far superior in the last two tests.

Next time around is this fall and I am working to make class participation worth more and make it more interesting, and seemingly worth their while. Thanks Mark Mark Paetkau Dept. of Physics Thompson Rivers University Kamloops, BC

First-Year Labs

PHYS 110 PHYS 120

1) Measurement & Uncertainty 1) Interference Phenomena

2) Graphs & Pendulum 2) Refraction in Prisms (F)

3) The Lab Report & Air Track (F) 3) Thin Lenses and Mirrors

4) Vector Addition of Forces 4) Electrostatics

5) Collisions in 2-D 5) Direct Current Circuits

6) Buoyancy 6) Capacitors

7) Specific Heat (F) 7) Magnetic Field in a Solenoid (F)

8) Hooke's Law (F) 8) Deflection Tube

9) Standing Waves in a String 9) Hydrogen Spectrum (F)

+ Lab Exam 10) Radioactive Count Rate and Mean Range

+ Lab Exam

PHYS 115 PHYS 125

1) The Lab Report (F) 0) Uncertainties and Graphing (Ephy 1250)

2) Graphs 1) DC Circuits

3) Thin Lenses and Mirrors 2) AC Waveforms

4) Interference 3) Electric Field Mapping

5) Hooke’s Law (F) 4) Deflection Tube

6) Standing Waves on a String 5) Magnetic Field in a Solenoid (F)

7) Sound Waves 6) Coefficient of Linear Expansion (F)

8) Trajectory (F) 7) The Ideal Gas Law

9) Collisions in 2-D 8) Specific Heat of a Metal (F)

+ lab exam 9) The Heat Engine

+ lab exam

PHYS 151 PHYS 161

1) Graph 1) Ultimate Strength

2 ) Acceleration in 1-D 2) Stress versus Strain

3) Friction 3) Deflection of a Beam

4) Concurrent Forces 4) Pressure at a Depth in a Liquid and Buoyancy

5) Loaded Beam 5) Fluid Flow in a Straight Pipe

6) Centroids 6) Specific Heat

7) Simple Machines 7) Coefficient of Linear Expansion

8) Pin Jointed Structures 8) Vibration of a Cantilevered Beam

9) DC Circuits 9) Standing Waves in a String

10) DC Circuits cont’d 10) Snell’s Law of Refraction

11) AC Circuits 11) Mirrors and Lenses

PHYS 158

1) Experimental Error (F)

2) Boyle’s Law and Absolute Zero

3) Buoyancy + Pressure at a Depth

4) Fluid Flow (F)

5) Pitot Tube

6) Bernoulli’s Equation (F)

7) Electricity 1

8) Electricity 2

9) Wheatstone Bridge

10) + Lab exam

----------------------------------------------------------------------------------- Trinity Western University

• Our Fall 2009 astronomy course (stellar and galactic astronomy, Phys 215), targeted to the general student, was successful. I will try off-campus observing sessions next time, but transportation issues might be a challenge.

• We graduated four physics students this year, with minors or concentrations; three plan to go into high-school teaching (after a year in TWU’s new B.Ed. program), and one into aviation.

• We had ten students in our alternate-year mechanics course (Physics 220), and four in our alternate-year optics course (Physics 360). Three of these are heading into engineering, three are in chemistry, three are staying for a physics minor or concentration, and one is heading to UBC (or SFU?) physics.

• Enrolment in our first-year calculus-based physics sequence was about normal: 48 & 38, with two students failing each semester.

• Our differential equations sequence Math 321 (3-credit) + Math/Phys 322 (3-credit), offered alternate years, has been collapsed to Math/Phys 321 (4-credit) due to reductions in math staffing, and offered only every three years.

• We have hired our first NSERC USRA student, and are thankful for library, computing, office, and community support from SFU for the student and his supervisor (me).

UBC – Okanagan

For PHYS 112 (algebra-based), the stable enrolment in 09/10 was 251 (vs. 186 the previous year), and for the follow-on course PHYS 122 it was 209. For PHYS 111 (calculus-based), the stable enrolment in 09/10 was 179 (vs 160 the previous year), and for the follow-on course PHYS 102 it was 107. For ASTR 11x (all versions of 1st-semester Astronomy), the stable enrolment in 09/10 was 128 (vs. 91 the previous year), and for the follow-on courses ASTR 12x it was 76. Second-year enrolments for 09/10 varied by course from 9 to 29 (averaging 16). No curriculum changes are planned at the 2nd-yr level for the upcoming year. Upper-level enrolments for 09/10 varied by course from 3 to 21 (averaging 11). Curriculum developments at the upper-division level: (a) A new 400-level course in Solid State Physics is planned to be introduced in 10/11. (b) A 300-level course in Stellar Astrophysics course is now to be formally included in the Calendar. This course had been taught provisionally as a Special Topics course. Graduation statistics: There are three Physics Major students expected to graduate this spring (no Honours or Minor graduates this year). Next year looks more promising, with at least three students presently intending to undertake Honours thesis work. Graduate students: There are three students currently enrolled in the Interdisciplinary Graduate Studies program.

UBC (Vancouver)

 

Our  enrollment  numbers  in  our  1st  year  were  up  by  about  100  students  for  2009/10.  The  following  are  the  numbers  for  Physics  100  (807),  Physics  101  (1745),  Physics  102  (705),  Physics  107  (94),  Physics  108  (86),  Physics  153  (799),  Physics  170  (937),  Astro  101  (149),  Astro  102  (153).  Our  non-­‐Science  Astronomy  courses  were  down  from  the  high  levels  of  2006/8-­‐-­‐  Astro  310  (350),  Astro  311  (357).    

We  will  graduate  21  students  in  our  various  Honours  Physics/Astro  specializations,  17  students  in  Honours  Biophysics  and  25  students  in  Majors  Physics  &  Astronomy.  We  will  also  have  about  50  graduates  in  Engineering  Physics.    

Our  new  Studio  Laboratory  classrooms  for  1st  year  (  100/101/102/109  )  were  used  for  the  1st  time  in  2009/10  and  the  students  and  faculty  were  both  very  pleased  with  the  new  format.  

We  switched  to  Mastering  Engineering  for  our  Physics  170  on-­‐line  homework/tutoring  system  and  we  were  generally  much  happier  with  this  product  compared  to  “course  compass”.  We  continued  to  use  Mastering  Physics  in  most  of  our  1st  year  courses  for  which  we  typically  assign  4%  of  the  overall  grade.  We  also  use  clickers  in  most  1st  year  courses  –  for  about  4%  of  the  course  grade  (  partly  on  participation  and  partly  on  correctness  ).    

We  also  conducted  a  short  “learning  experiment”  in  two  sections  of  our  Physics  153  Electricity  &  Magnetism  course.  In  one  section  the  students  received  the  traditional  lectures  along  with  clicker  questions.  In  the  transformed  section  the  students  were  asked  to  complete  an  online  pre-­‐reading  quiz  and  then  they  performed  in-­‐class  activities  during  the  2  lecture  periods  –there  were  no  formal  lectures.  An  important  ingredient  in  the  transformed  section  was  the  fact  that  students  were  able  to  work  in  small  groups;  this  was  a  highly  interactive  environment  and  the  students  were  able  to  have  meaningful  discussions  with  each  other  because  most  of  them  had  already  read  the  material  in  the  textbook.  In  the  3rd  lecture  period  the  students  in  both  sections  were  given  a  short  quiz  based  on  the  material  covered  (  Electromagnetic  Waves  ).  The  results  were  substantially  better  for  the  transformed  section  which  employed  the  pre-­‐reading  quizzes  and  the  group  classroom  activities  (~70%  versus  ~40%  ).  

 

UFV (University of the Fraser Valley) - This year, we had 10 graduates: 1 Honours, 7 Majors and 2 Minors, up from last year’s 8.

- Enrolments in our introductory courses dropped significantly (from about 100 to about 65).

- Enrolments were up in first year, not only in our main-stream Phys 111/112 courses (281

students to 306) but also in our algebra-based service courses (Phys 101/105, 71 up to 84), designed mainly for Biology students. Our Astronomy courses were up a bit as well (56 to 65).

- Second and higher years mostly flat (around 15 students in each of 3 second-year courses,

and an average of 11 in each of the ten 300+ sections.)

- We have revamped our 2nd year E&M course, splitting it into separate courses: a lecture-only

E&M (still called Phys 222), and a lecture/lab Electronics/Data Analysis course (Phys 232). Now let’s see how it works out. The next step the department is contemplating is to add a 4th year E&M course to the existing 3rd year one, and drop the 2nd year. (Which would essentially just move the material up the ladder.)

- Survey of Medical Physics – Phys 275 (a 1 credit course) planned for Fall 2010 in conjunction with the BC Cancer Agency in Abbotsford. We hope to add more courses in this area in the future.

- We are STILL going through a Program Review – it should be over soon, thankfully.

- In wider institutional news, our administration wants to significantly increase their numbers (and salaries, of course), faculty are loudly arguing over whether or not to introduce a system of ranks (and if so, what that should look like), and bargaining is going swimmingly.

UNBC Enrollment numbers

Enrollments have been strong in 2009-2010. We have seen stable or increased enrollments in all first-year and second-year offerings.

Physics 115 (Phys 12): 2009-2010 65, 2008-2009 63, change: +3% Physics 110/111 (Calculus-based): 2009-2010 142, 2008-2009 99, change: +43% Physics 100/101 (Algebra-based): 2009-2010 186 2008-2009 211, change: +13% Physics 120/121: Stable (20-30).

Second-year enrollment:enrollment is up 50% from last year, bringing us back to our 2006 level after having a substantial reduction in 2007 onwards as a result of the temporary closure to admissions to the Physics major.

We have seen a general increase in enrollment, in particular, in our first-year calculus-based physics courses. This is most likely a result of recovery in enrollments to the 2006 level, where there was a temporary suspension to admissions into the physics major in 2007.

Curriculum

There were no changes to the undergraduate Physics curriculum at UNBC in the 2009/2010 academic year. There was one new course introduced:

PHYS 150-3 Title: Physics for Future Leaders Calendar course description: This course examines the physics underlying major technological aspects of modern society and issues of global concern. While addressing themes such as global warming, the energy problem and alternative sources of energy, nuclear power and nuclear weapons, health and medical technology, pollution of the atmosphere, satellites, telecommunication, and the internet, this course introduces basic physics topics such as motion and energy, atoms and heat, gravity and force, electricity and magnetism, light and electromagnetic waves, radioactivity and nuclear reactions, quantum physics, and relativity. This course requires no scientific or mathematical background and is accessible to students in any discipline.

Textbook changes from articulation committee website

Physics 100/101 - “College Physics: A strategic approach,” Knight, Jones and Field. Physics 120/121 - “Astronomy Today,” Chaisson and McMillan. Physics 200 – “An introduction to thermal physics,” Schroeder.

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University of Victoria (UVic)

1 Total enrolment increased from 2008 but absolute numbers are difficult to assess because of curriculum changes. 2 Registration for our two semester first year Astronomy course for non science majors (Astr 120) increased substantially when we split it up: 250 for Astr 120 in 2008 to 406 for Astr 101(102) in 2009. 3 Registration for our summer offering of first year algebra based Phys 102 also increased markedly when we rescheduled it from the daytime slot to an evening one: 27 in 2008 to 55 in 2009. 4 Our new waves and modern physics course Phys 130 comes on stream in Spring 2011 to complement our mechanics course Phys 120. 5 Third year Thermodynamics (Phys 317) is scheduled to be moved to 2

nd

year as Phys 217 starting Spring 2012.

------------------------------------------------------------------------------------------------------ Vancouver Community College (VCC)

Textbooks: Astr 101/102 non science Seeds -Foundations of Astronomy

Astr 150 concepts, 250 astrophysics Freedman and Kaufmann -Universe Astr 255 planetary Cole and Woolfson -Planetary Science Phys 102 general (algebra) Serway and Vuille -College Physics

Serway and Jewett -Physics for Scientists and Engineers

Phys 112 basic, 120 mechanics, 122 engineering mechanics, 125 waves, 216 e&m 220 Phys 215 modern Thornton and Rex -Modern Physics for

Scientists and Engineers

In the last week of August 2008 our only offering of 1st year calculus-based physics was cut as part of a large number of cuts happening at VCC in 2008. We had students registered in the course who were left in a difficult position. We still list UT physics as a course at VCC but for the time being we have been told not to run it by the administration. The rationale from administration is that UT physics does not serve as a pre-requisite to any other VCC courses or programs.

We have a new president at VCC and will have strategic planning happening this fall 2010. We hope to offer UT physics again since there is still strong student interest from inside and outside the college. It also supplements our other UT science and math courses.

----------------------------------------------------------------------------------------------------- Vancouver Island University

1. Student numbers were stable in our 1st year. Life sciences courses (P111/P112) bounced back to historical levels (this year: 120/75; last year: 90/60); calculus based courses (P121/P122) moved back toward past historical levels (this year: 75/55; last year 49/37), although unclear if this will really help second year.

2. Second year physics ran, but with continued low numbers: Modern physics (7), E & M (7), Mechanics (2), Quantum (3). It appears likely that these courses will be cut sooner or later; hope to use the hours to put on other (more popular?) courses.

3. Second year Electrical Eng transfer was cut as part of the 2010 budget process.

4. Greg Arkos was on leave, so Astronomy ran with sessional instructors. Continuing to run two 1st year (solar system, stars & galaxies) & two 3rd year (cosmology, history). Numbers remained good for most of the courses (approx 100 students total). New “Go To” scope will help a LOT with running observation sessions.

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