SiMON FRASER UNIVERSITY
S
' N
4TE p
MEMORANDUM
.
To............................Mr.I-I.
Evans
.
.
From
B. L. Funt
Secretary of Senate
Dean of Science
I.
Subject
Courses
.
Date
February 11,
1.
1970
At its meeting of February 9, 1970, the Faculty of Science approved
the following courses:
Physics 399-2
Chemistry 416-3
Chemistry 463-3
The Physics course is a special one in a series being given by Professor
Montroll. It is to be offered in the Fall 1970 semester only and is not
part of a continuing program.
•
Chemistry 416-3 is a laboratory course in analytical methods. The
Department of Chemistry reports that the removal of some prerequisites
will now permitt a freer scheduling of the senior level courses and a
lower frequency of offering. The Department reports that no new faculty
will be required as a result of this change infrequency of presentation.
The Chemistry 463 course represents a revision of the Physical Chemistry
offering in order to ensure that the material of similar character is
brought together under the same course title. It is also intended to
relieve some of the strain from Chemistry 261, which is reported by
students and faculty as being too severe a course for the time and credit
allocated to it.
B. L. Funt
c.c. Dr. L. M. Srivastava
0
FACULTY OF SCIENCE
1)
Report of the Undergraduate Curriculum Committee
a)
Physics 399-2
The Physics Department wish to mount a course suitable for
third year students in Physics and Chemistry during the
Fall semester of this year while Dr. Montroll is on campus.
The course has been approved by the Faculty of Science Undergraduate
Curriculum Committee at its meeting of February 4th, 1970
B. L. Funt
Approved by the Faculty
of
Science at its meeting
of
February 9, 1970
is
II
.
.
FACULTY OF SCIENCE
NEW COURSE PROPOSAL
I
CALENDAR INFORMATION
Department:
Physics
Course Number: 399-2
Sub-title or Description:
Physics of Technology
Credit Hours: Two
Vector Description: (2-0-0)
Pre-requisite(s): fifth semester (60 semester hours) standing
including Physics 101-3 and Physics 102-:3 or
the equivalent, and Mathematics 232 and 352.
II
ENROLMENT AND SCHEDULING
•
Estimated Enrolment: 30
Semester Offered: Fall 1970 only
III
JUSTIFICATION
A. What is the detailed description of the course including
differentiation from lower level courses, from similar courses
in the same department and from courses in other departments
in the University? What is the range of topics that may
be dealt with in the course?
History, physical principles, state of the art, and direction
of probable development in the fields of computer hardware,
communications systems, propulsion methods, new materials,
and energy sources and power generation methods. This
course will overlap no other courses offered in this
University.
B. How does this course fit the goals of the department?
We wish to allow our students to take advantage of Dr. Montroll's
Is
presence on our campus this Fall.
.
page 2
C.
How does this course affect degree requirements?
It does not.
D.
What are the calendar changes necessary to reflect
the addition of this course?
NONE
E.
What course, if any, is being dropped from the calendar if
this course is approved?
pI.1I
F.
What is the nature of student demand for this course?
Suitable for Chemistry and Physics third year students.
G.
Other reasons for introducing the course.
In graduate course format it would be difficult for us to
be able to offer this valuable course to our students.
IV
BUDGETARY AND SPACE FACTORS
A.
Which faculty will be available to teach this course?
Dr. Elliott W. Nontroll
B.
What are the special space and/or equipment requirements for
this course?
One classroom for three weeks, one hour per day.
C.
Any other budgetary implications of mounting this course:
A teaching assistant must be hired to supervise student projects.
APPROVAL -
Faculty Undergraduate Curriculum Committee:
cG.8MAR'4 L
i
., i'rio
Faculty:
e.LUA$
,
Senate:
2h-F
FACULTY OF SCIENCE
i)
Report of the Undergraduate Curriculum Committee
c)
Chemistry 416-3
This course was approved by the Faculty of Science Undergraduate
Curriculum Committee at its meeting of February 4, 1970.
B. L. Funt
Approved by the Faculty
of
Science at its meeting
of
February 9, 1970
S
S
[1
C
FACULTY OF SCIENCE
NEW COURSE PROPOSAL
I
CALENDAR INFORMATION
Modern Methods of
Department: Chemistry
Course Number: 416
Title:
Analytical
Sub-title or Description:
Chemistry
Instrumentation, techniques and scope of application of analytical methods
based on optical properties, electrochemical phenomena and interphase
separations. Applications to problems in pure and applied Chemistry and
Biochemistry.
Credit Hours:
3
Vector Description: 2-0-4
Pre-requisite(s):
II
ENROLMENT AND SCHEDULING
i
sEstimated Enrolment:
8
Semester Offered (e.g. Yearly, every Spring; twice yearly, Fall and
Spring):
Every Fall
When course will first be offered:
70-3
III
JUSTIFICATION
A.
What is the detailed description of the course including
differentiation
from lower level courses, from similar courses in the same department
and from courses in other departments in the University?
See description above. This is a senior level "instrumental analysis' course;
certain other of our courses employ similar instrumentation but not for the
purposes of developing an understanding of their use in analytical procedures.
This course is the only one required for Am. Chem. Soc
.
. accreditation that we
lack.
B.
What is the range of topics that may be dealt with in the course?
Emphasis will be on the application and relative limitations of analytical
methods based on physical measurements, rather than on the principles of
these measurements themselves.
• In addition to optical spectrophotometry and the various electrometric methods,
some mention will be made of X-ray methods, chemical microscopy, and i.nterphase
separation techniques of analysis. See appended course outline for details.
Page 2
C.
How does this course fit the goals of the department?
This course would plug the major existing gap in our chemistry program -
the lack of any course in modern analytical chem
4
stry. Such a course
is particularly im)ortant for students who do NOT intend to pursue
graduate work since these techniques are widely used in industry.
D.
How does this course affect degree requirements?
This will be an elective course, not a part of the "core" program.
There will be no change in degree requirements.
E.
What are the calendar changes necessary to reflect the addition of
this course?
Insertion as per 1 on Page 1 of this form.
F.
What course, if any, is being dropped from the calendar if this
course is approved?
None
G.
What is the nature of student demand for this course?
The lack of such a course has been criticized by a number of students
who feel that their preparation in this area has been completely
inadequate.
.
C
H. Other reasons for introducing the course.
BUDGETARY AND SPACE FACTORS
'V
A. Which faculty will be available to teach this course? S. K. Lowe and
possibly B.D. Pate.
Changes in the prerequisites for Chem. 361,
362 and 462 would allow a lower frequency of offering of these courses
and therefore free faculty.
Page 3
B. What are the special space and/or equipment requirements for this
course?
1.
Space: Can fit in very well to the new Physical Chemistry teaching
laboratory, since the facilities required will be of a similar nature.
2.
Equipment: Will make use of much of our present research apparatus;
some new purchases will be required to cover areas (such as electrochem-
istry)that are not of current research interest in the Department.
C. Any Other budgetary inrlications of mounting this course:
It should be noted that the Department was granted about $30,000 for the
establishment of this course three years ago, and then deferred it indefinitely,
in order to conserve University funds at that time. The amount required to get
the course going now will be much less than this, In that the present research
equipment will be utilized for this course.
APPROVAL -
Faculty Undergraduate Curriculum Committee:
rESRUJ° p R' I 41M110
Faculty:
'k
t1O
Senate:
0
Outline is based on two lectures and one laboratory period per week.
Because all instrumental methods cannot possibly be covered in
,a single
course of reasonable size, the philosophy stated above vis-a-vis existing
courses is somewhat compromised; NMR, mass spectrometry, and infrared
techniques are left to Chem 457, and radioisotopic procedures are not
covered. Thermogravimetry and DTA have been left out. Individual
instructors will no doubt have their own feelings as to details of what
should be included and what can be left to other courses. I would propose
that the laboratory exercises cover methods and techniques that are not
used at all in existing courses; the lectures and problem sets could cover
the entire outline content at a consistent level of thornihness.
.
PART I:
OPTICAL METHODS
Lecture No.
Lecture Topics
Lab. Topics
1
Introduction to optical methods; sources
Lab. 1
of radiation, monochromators, photometry.
2
Visible and u.v. absorption spectrometry;
absorbency, Beer's law, photometric accur-
3
acy, Ringbom plots.
Isobestic points, Job's
-
-
Lab.
2
law plot-s, difference spectra.
Photometric
4
titrations, reflectance spectra.
Fluorimetry and phosphorimetry.
Fluorescence,
5
energy transfer, quenching.
Applications to
Lab. 3
trace analysis.
Arc emission and flame spectroscopy; atomic
6
absorption and atomic fluorescence.
Some
applications of atomic absorption.
.__.
7
.
X-ray methods; X-ray absorption, diffraction
and emission analysis; electron microprobe
La]).
4
8
analysis.
9
Polarized light; polarimetry and ORD;
Lab. 5
circular dichroism.
10
Optical crystallography and chemical
microscopy.
Applications to geochemistry.
0
.
-2-
PART II. ELECTROCHEMICAL METHODS
11
Introduction: electrodes, cell reactions, stan-
dard potentials. Reversibility, polarization,
overvoltage.
12.
Potentiometry; potentiometric titration, non-
aqueous solvent techniques, constant-potential
titrat ions.
13.
Voltammetry and polarography. Cyclic voltam-
14
metry, amperometric titrations, chronopotentio-
metry.
15
Electrodeposition and coulometry; controlled-
potential electrolysis, electrography, mercury-
16
electrode electrolysis, coulometric titrations,
stripping analysis.
17
Conductimetry, high-frequency titrations.
Lab. 6
Lab. 7
Lab. 8
Lab. 9
.
PART III. INTERPHASE SEPARATIONS
18
1 Solvent extraction, countercurrent separation,
Lab. 10
I fractional distillation
19, 20
Gas chromatography
Lab. 11
21
Liquid chromatography; absorption and partition
22
chromatography, molecular seives and gel permea- i Lab. 12
23
tion methods, ion-exchange chromatography.
24
Electophoresis and electrochromatography.
0
,24
-^
FACULTY OF SCIENCE
i)
Report of the Undergraduate Curriculum Committee
d)
Chemistry 463-3
This course has been approved by the Faculty of Science
Undergraduate Curriculum Committee at its meeting of
February 4, 1970.
B. L. Punt
.
Approved by the Faculty of Science at its
meeting of February 9, 1970
I
e
.
FACULTY OF SCIENCE
NEW COURSE PROPOSAL
I
CALENDAR INFORMATION
Department:
Chemistry
Sub-title or Description:
Course Nuniber:63 Title:
Physical
Chemistry of
Solutions
Credit Hours:
3
Vector Description:
3-1.-0
Pre-requisite(s):
Chemistry
261
II
ENROLMENT AND SCHEDULING
.
Estimated Enrolment:
5
to 10 initially
Semester Offered (e.g. Yearly, every Spring; twice yearly, Fall and
Spring):
Yearly
When course will first be offered:
Fall 170
III
JUSTIFICATION
A. What is the detailed description of the course including differentiation
from lower level courses, from similar courses in the same department
and from courses in other departments in the University?
This course will deal primarily with thermodynamics of non-ideal
solutions, and kinetics of solution reactions. The introduction
9
f non-ideal solutions will be deleted from Chem
261 and. presented
n considerably expanded form. Solution kinetics as such are
not presently taught.
B What is the range of topics that may be dealt with in the course?
Jctivity, fugacity and their determination; properties of
electrolyte solutions; Debye-Hückel theory; kinetics of
solution reactions; diffusion-limited reactions; cage effect;
xelaxation methods; enzyme kinetics.
Page 2
C.
How does this course fit the goals of the department?
It provides a course in an area of chemistry not presently
d
aequately covered but of considerable importance to all
branches of chemistry, including biochemistry.
D.
How does this course affect degree requirements?
It provides an additional upper level chemistry elective.
E.
What are the calendar changes necessary to reflect the addition of
this course?
Addition of this course.
.
F.
What course, if any, is being dropped from the calendar if this
course is approved?
ITT
G.
What is the nature of student demand for this course?
Shortage of upper level chemistry electives.
No systematic treatment of solution physical chemistry.
H.
Other reasons for introducing the course.
It is necessary to remove some material from Chem 261 as this
course is too long for a 13-1-0 course.
IV
BUDGTARY AND SPACE FACTORS
A. Which faculty will be available to teach this course? Drs. Voigt, Sherwood
Gay
Changes in the prerequisites for Chem. 361, 362 and 462 would allow
a lower frequency of offering of these courses and therefore free
faculty.
Page 3
,.-e
B.
What are the special space and/or equipment requirements for this
course?
None
C.
Any Other budgetary implications of mounting this course:
None - faculty requirement can be met with present staff.
APPROVAL -
Faculty Undergraduate Curriculum Committee:
*4
MO
S
Faculty:
E.UA-&4 4 1
,
i
1O
Senate:
