SiMON FRASER UNIVERSITY

?

S.7&/4

MEMORANDUM

0

To

.SEJ,.ATE

.

?

From .........

SENATE

.

.

COMMITT.E.E...ON ...

UNDERGRADUATE ..........

IES

............................... .. ................. .................... ...............

Subject ................

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PROPOSAL...

NEW ...

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Date. ........NOVEMBER.. 13,19.7.5........................................................

PHYS

131-2

MOTION 1:

?

"That Senate approve and recommend approval to the

Board of Governors, as set forth in S.75-184,

PHYS 131-2 - General Physics Laboratory."

MOTION 2: ?

"That Senate approve the offering of PHYS 131-2 -

General Physics Laboratory first in the Summer

Semester 1976-2."

r

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Action taken by the Senate Committee on Undergraduate

Studies at its meeting of November 12th, 1975 gives rise to the

following motion:

That Senate approve and recommend approval to the

Board of Governors PHYS.131-2 - General Physics Laboratory.

JASY.p'

That Senate approve the offering of PHYS.131-2 -

General Physics Laboratory first in the Summer semester, 1976 *

is ?

Daniel R. Birch

ants

att.

* Offering will be contingent on approval of resources.

Approval of the course by SCUS and Senate does not imply

allocation of resources.

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SCWJdrIVI

SiMON FRASER UNIVERSITY

?

MEMORANDUM

From ?

S.

Aronoff ?

.

Dean of

of Science

October 24,. 1975

Date................................................................................................

At its meeting of October 16, 1975, the Faculty of Science passed the

following motion:

"That the Faculty approve the proposal for a new course,

PHYS 131-2, General Physics Laboratory, and forward to

SCUS for consideration."

This course is intended to prepare students in Physics for 200—level

lab courses, and also to simplify a problem with regard to transfer credit

from other institutions. It will result in no change to the 200—level

lab course.

The supporting documentation for this proposal is attached.

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/pe 1

End.

1

RefefCA1

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SiMON FRASER UNIVERSITY

?

F-75-7

MEMORANDUM

To

?

Faculty Members

?

.From.. E. Lambert

Faculty of Science

Faculty Secretary

Subject. ?

New Course Proposal

PHYS

131-2 ?

. ?

October 6,175

At its meeting of August 6, 1975 the Undergraduate Curriculum Committee

of the Faculty of Science discussed a proposal for a new course, PHYS

131-2, "General Physics Laboratory" which would be a first year lab

offering students experience with the equipment and practices used in

Physics experiments. It was noted that in the future the Physics Depart-

ment might require that students take

PHYS

131 in conjunction with

PHYS

102, but that this would not be necessary at the present time.

The Committee passed the following motion unanimously:

"That the Committee approve new course proposal

PHYS

131-2

'General Physics Laboratory' and forward to Faculty for

consideration."

The Department requests that

PHYS

131 be scheduled for offering in the

Summer Semester 76-2.

Supporting documentation for this proposal is attached.

/pe 1

End.

40-

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SiMON FRASER UNIVERSITY

MEMORANDUM

To

...................... Dr... S.... Aronoff

.

................................... . ......... .............

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.....................

Dew .... o.f...S.c.len.ce.

.............................. ..........................

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Sjbjed

............

New .. Course ...

Pi.3l-2

.................................. ................

From

...............

.Dr . . A.E.Curzon, .Cha.n

Dprt..entof Physics

Dow..... . ........ 8 ...

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u1

y

... ...97.5.

....................................................... ..............

The attached documentation describes a proposed new

laboratory course, P131-2. The course has been approved

by the Physics Department and is being submitted for

consideration by the faculty. It Is hoped that the course

can be first offered In the Sumer Semester of 1976.

AEC/mgj

?

A.E. Curzon

w )

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AC3I..E ?R3POS,\L TOM

Ca1nJar ?

fcr:ioi

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Dpartecnt:_PHYSICS

/Titlt

AbrsvLatin cod.:PH

YS

Couree uber: 131

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Credit )Iours:2

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Vdctr:(0-0-4)

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of Course: GENERAL PHYSICS. LABORATORY

Calendar Description of Courss

Elementary experiments

in optics, electricity, mechanics and

( ?

heat, that are designed to augment

General Physics I and

.11.

Nature of

Course

Laboratory

Prerequisites

(or special instructions);

Physics 102,or equivalent, should

precede or be taken concurrently; or by

permission of the department.

':

coin. (courses), it any, Is being dropped from the calendar at this coup. a

a;proved: None

Scheduli nx

Now

frequently vii]

the course be offered?

Two o three

it

jmes

p

ez annum in

ciance w

accor

n aemanci.

Sster in which

the course will first be offered?

Summer 1976

Which of your present faculty would be available to oaks the popo;ed offering

possible? All

3.

Obecttvee of the Course

To familiarize the student with the basic instrumentation that is commonly

used in making physical measurements. To provide the student with experience in

carrying out, and interpreting the results of quantitative physical experiments

with due recognition of systematic and statistical errors of observation. To

illustrate in practical terms the basic physical principles presented in the first

year Physics courses.

4.

4 j

etry and

S23ce

Requ1rcent

(for Information only)

What additional resources will be required in the following areas:

Faculty

The course can be mounted on a temporary basis with the

present faculty

Staff and with the

assistance of

post doctoral fellows.

Nil'

Library Nil

Audio Visual

Nil

Space Nil--Adoption of this course will entail complete utilization of present space.

Equipment $23,790.00

?

I

5, )proval

Date: ?

197S ?

i

?

.-'

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Ch*irA, scis

SCS 73-34b:- (hen

coi.tLng this form, for LmatructLoS see

Mesomidum SC%$ 73-349.

Attach course

outlin e).

?

3-

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INTRODUCTION

The laboratory courses presently offered by the

Physics Department are at the 200-, 300- and 400- level.

Over the years it has become increasingly clear that a

100-level physics laboratory course should be included

as an integral part of the course offerings in physics.

A 100-level Physics laboratory would enhance the success

of students in our upper level laboratories, provide a

much needed experience and background for all first

year science students and at the same time help to

alleviate many of the transfer credit problems that we

have encountered in recent years.

When the physics programme was originally set-up,

we felt that university physics laboratory courses

should be postponed until students had taken a first-

year physics course: then more interesting and more

sophisticated experiments could be offered to students

in a 200-level laboratory (this idea was

probably

unique in

Canadian

universities). Such an approach

has been successful and stimulating for exceptional

students, however difficulties have been experienced

by the vast majority of others, most of whom lack

adequate high-school physics laboratory

training.

The

department now recogizes that there is a definite need

for a first-year university physics laboratory as a

4

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pre-requisite to our 200-level laboratory.

The

inclusion

of a first-year physics laboratory

will also provide our students with a background that

is more comparable with that obtained by students from

other universities

and colleges.

To the best of our knowledge all the post

?

secondary

institutions

in British Columbia provide

their first year science students with Physics laboratory

experience. We have also found from a brief survey

that at most Canadian universities a physics laboratory

is part of the undergraduate requirement in science.

This seems to make good sense to us, considering the

increasing

use of sophisticated instrumentation in all

of the natural sciences. Also it is thus clear that

a first year physics laboratory course at SFU would

help to alleviate many actual and anticipated transfer

credit problems.

We realize that a considerable fraction of the

students taking a first year physics laboratory would

be those majoring in the biological sciences, and

intend

to offer laboratory experiments that will be both

interesting and useful to such students. To this end

the attached list of experiments was drawn up with the

assistance of Dr. Belton and Dr. Burr of the Department

.

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.

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I.

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3

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of Biological Sciences. It is hoped that further addition.

/ ?

and modifications will occur as result of consultation

/ ?

with other members of the faculty of science.

/

In summary, the physics departmónt recognizes the need

for a first-year physics laboratory course. The

introduction of such a course would enable SFU Science

students to obtain a background in physics comparable to

that provided by the vast majority of Canadian Universities

and Colleges. Physics 131-2 would also adequately prepare

inexperienced physics students for their second year and

would simplify the granting and obtaining of transfer

credit for incoming and outgoing students respectively.

We r;ecommend that it consist of one 4 hour session per week,

and that it be designated

Physics 131-2, General Physics Laboratory. We also

recommend that physic. 131-2 be taken concurrently with

Physics 102-3.

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Object of the First-

y

ear Physic. Laboratory

4

// ?

I

The object of the laboratory includes the followings

( j

) To familiarize the student with the basic instru-

mentation that is commonly used in making physical

measurements.

(ii) To offer the student experience in carrying

Out

quantitative physical experiments, with due

recognition of systematic and statistical errors

of observation.

To illustrate in practical

1

terms

the basic physical

principles presented in our first year physics

courses, particularly Physic. 102-3.

Calendar Description

Physics 131-2. General Physic. Laboratory.

Experiments in optics, electricity, m,chanica,

and heat.

(0-0-4)

Prerequisites Physics 102-3 must precede or be taken

concurrently.

•

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Physics 131-3.

-5-

Introductory Physics Laboratory.

1

List of Experiments

1. Refraction of Light

Ray tracing to verify Snells Law and determine

refractive index of glass slab; ray tracing for a

glass prism and a water prism, find the refractive

indices by minimum deviation.

2.

Thin Lenses

Determination of the focal lengths of converging

and diverging

lenseS;

verification of the thin lens

formula, magnification.

3.

The Com

p

ound Microscope

Includes setting up a simple compound microscope

on an optical rail, location of images, determination

of magnification and comparison with simple theory;

demonstration of the basic components of a modern

optical microscope.

4. The

Spectrometer

Use of the prism and grating spectrometer, in-

cluding observations on the spectral distribution from

tungsten, sodium and mercury lamps; measurement of

wavelength.

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8

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•75.

Periodic Motion

Motion

Oscillation of

a simple pendulum is observed and

compared with the theory for small displacements and

g is determined; centripetal force is measured using

a conical pendulum.

6.

Calorimetry

Measurement of the specific heat of copper; the

latent heat of

fusion of ice; use and calibration of

a thermocouple.

7.

D.C. Measurements

Resistance measurements

using a voltmeter and

ammeter, resistance

in series and parallel; the EMF

and terminal voltage of a battery using a slidewire

potentiometer.

8. Alternating Current and the Oscilloscope

Principles of operation of an oscilloscope,

observation of various waveforms; the half-wave

rectifier; AC and DC meters; decay of current

in a

capacitor-resistor circuit.

9.

Particle Size by Diffraction

Determination of mean particle

size of, for example,

lycopodium powder by means of laser diffraction;

com-

parison with measurement of mean

particle size with a

microscope, and also by weighing a large quantity of powder.

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10.

Polarized Light

Production of polarized light; verification of the

Law of Malus; determination of refractive index from the

Brewster angle for glass; measurement of optical rotation.

11.

Resolution of a Microscope and the Principles of

Phase Contrast

Experimental determination of the resolution of

an objective lens using a grating as object and com-

parison with simple theory; use of the phase contrast

technique to observe a phase grating object. Both of

these experiments use a simple set-up on an optical rail.

40

1^

?

12. Particle Counting

Determination of the characteristics of a Geiger

tube; the absorption of B particles in aluminum and

other materials.

13.

Measurement of Surface Tension.of a Liquid

Two

techniques are used: the capillary tube

method and measurement of the angle of contact; measure

-

ment of variation in surface tension with temperature

using Jaeger's method.

14.

Wave Motion and Standing Waves

Observation of standing

waves in wires and air.

10

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References

For most experiments the textbook used for

Physics 101 and 102 will be adequate.

For experiments 9 and 11, supplemental notes

will

be provided in the laboratory.

For experiment 13, "Experimental Physics for

Students", R.M. Whittle and J. Yarwood, Chapman and Hall,

1973,

p.

172.

S.

11