September 8 th 2011 Agenda
Transcript of September 8 th 2011 Agenda
REGISTRAR’S OFFICE
Council Committee on Undergraduate Admissions and Studies
AGENDA
Thursday, September 8, 2011
10:00 a.m., AH 527
DATE: September 1, 2011 TO: All Members of the Council Committee on Undergraduate Admissions and
Studies FROM: Bev Liski, Associate Registrar, Academic Policy Services and Ceremonies RE: NOTICE OF MEETING ____________________________________________________________________________
AGENDA 1. APPROVAL OF AGENDA
2. APPROVAL OF MINUTES OF LAST MEETING, June 6, 2011
2.1 Items for Information
2.1.1 Changes to the Add and Drop Deadlines (Item 3.3 of June 6, 2011
CCUAS Minutes)
Following the June, 6, 2011 CCUAS meeting and prior to submission of the report to Executive of Council, the Registrar discovered, on further investigation of the matter, that the friendly amendment was not required and requested that the original motion be restored without restriction introduced by the friendly amendment. An electronic poll of members was subsequently taken, which resulted in a unanimous vote to restore the original motion.
2.1.2 Bachelor of Geographic Information Services and Certificate in Applied
Economics
Following the June 6, 2011 CCUAS meeting and prior to submission of the report to Executive of Council, it was learned that neither of these programs had been approved by the Planning and Priorities Committee and the items were subsequently omitted from the report. They will be resubmitted at a later date following approval by the Planning and Priorities Committee.
2.2 Approval of Minutes
3 BUSINESS ARISING FROM THE MINUTES
3.1 University Regulations Sub-committee (Item 5.1, point 6 of Minutes from June 6, 2011 CCUAS meeting), Appendix I, p. 3
4. OLD BUSINESS
4.1 Grading Assignments Task Force 4.2 Commission to Review Fresh Start Program
1
4.3 Sub-committee to Review Work Load around Examination Period
5. NEW BUSINESS 5.1 Report from the Faculty of Engineering and Applied Science, Appendix II, p. 4
6. ITEMS FOR INFORMATION
6.1 Date of Next Meeting and Deadline for Submission of Agenda Material
The next meeting will be held on Thursday, October 6, 2011 at 10:30 a.m. in NR 110.3. The deadline for receipt of agenda items is Thursday, September 29th.
7. CONCLUSION
2
APPENDIX I
REPORT TO COUNCIL COMMITTEE ON UNDERGRADUATE ADMISSIONS AND STUDIES
SEPTEMBER 8, 2011 ______________________________________________________________________ DATE: July 27, 2011 FROM: J. Metcalfe, Registrar and A. Revet, University Secretary Per the last meeting of CCUAS, following is the initial draft of the mandate for a new committee. THAT CCUAS create a standing subcommittee as follows: Name: Standing Subcommittee on the Unification of Undergraduate Regulations: Mandate: This standing committee is charged with unifying, where appropriate, new and existing regulations at the faculty level in order to create, and replace them with, university-level regulations. The standing committee will comprise an associate dean from each undergraduate faculty and the university registrar, who will chair the committee. The committee is a subcommittee of the Council Committee on Undergraduate Admissions and Studies.
3
APPENDIX II
To: Bev Liski, Associate Registrar, Academic Policy Services and Ceremonies,
Registrar’s Office
From: Dr. Satish Sharma, Associate Dean (Academic)
Faculty of Engineering and Applied Science
Date: 12-Aug-2011
Re: Report from Faculty of Engineering and Applied Science Council to the Council
Committee on Undergraduate Admission and Studies
The Faculty of Engineering and Applied Science submits and offers for approval the following items
which have been approved by the Faculty of Engineering and Applied Science.
I. ITEMS FOR APPROVAL
1) MOTION to revise ESE program curriculum as indicated:
Credit hours
BASc in Electronic Systems Engineering, required courses
Student's record of courses completed
Semester 1 (Fall) 3.0 CHEM 104 3.0 ENGG 123 3.0 MATH 122 3.0 PHYS 109 3.0 MATH 110 Semester 2 (Winter) 3.0 CS 110 3.0 ENGG 100 3.0 ENGL 100 3.0 MATH 111 3.0 PHYS 119 Semester 3 (Fall)
3.0 MATH 213 MATH 217 3.0 CS 115 3.0 ENEL 280 3.0 ENEV 223
FACULTY OF ENGINEERING AND APPLIED SCIENCE
M E M O R A N D U M
4
APPENDIX II
3.0 ENGG 240 Semester 4 (Winter,
Spring/Summer)
3.0 CS 210 3.0 ENEL 282 3.0 ENIN 233 ENEL 281 3.0 MATH 217 MATH 213 3.0 STAT 160 Semester 5 (Fall)
3.0 CS 201 3.0 ENEL 283 3.0 ENEL 384 3.0 ENEL 382 BUS 260 3.0 PHYS 201 Semester 6 (Spring/Summer)
3.0 BUS 260 BUS Elective (BUS 210, 250, 285 or 302)
3.0 ECON 201 3.0 ENEL 380 3.0 ENEL 390 3.0 CS 215 Semester 7 (Winter) 3.0 ENEL 387 3.0 ENIN 430 3.0 * Approved Elective ENEL 371 3.0 * Approved Elective 3.0 *Approved Elective Semester 8 (Fall) 1.0 ENEL 400 3.0 ENGG 303 3.0 BUS 250 * Approved Elective 3.0 * Approved Elective 3.0 *Approved Elective 3.0 *Approved Elective Semester 9 (Winter) 3.0 ENGG 401 3.0 ENEL 417 3.0 *Approved Elective 3.0 *Approved Elective 3.0 *Approved Elective 136.0 Total
* Approved Electives. Choose electives from one of the following streams: Communications: ENEL 393, ENEL 494 and 5 courses from the approved list below. Micro-Electronics:
ENEL 487, ENEL 489 and 5 course from the approved list below. Instrumentation and Control:
ENEL 389, ENEL 484 and 5 courses from the approved list below. Power:
ENEL 472, ENEL 482 and 5 courses from the approved list below. Approved List (includes Technical, Software, and Risk and Industrial Safety):
Technical Electives:
ENEL 389, ENEL 393, ENEL 395, ENEL 472, ENEL 482, ENEL 484, ENEL 494, ENEL 487, ENEL 486, ENEL 489, ENEL 492, ENEL 495, ENIN 253, ENIN 445, ENEV 261 Software Electives (choose at most one):
CS 261, CS 330, CS 340, CS 350, CS 372, CS 375 or any ENSE class except ENSE 477 Risk and Industrial Safety Electives (choose at most one):
ENEV 334, ENIN 340, ENIN 433, ENIN 440 Humanities Elective (choose one in a winter semester):
ENGL 110, PHIL 100, PHIL 241, PHIL 242, PHIL 272, PHIL 273, PHIL 275, RLST 100, WGST 100 Natural Science Electives (choose one): from astronomy, biology, chemistry, geology and physics.
5
APPENDIX II
Rationale: Based upon the CEAB and Industry Advisory Committee recommendations,
revising course sequencing and curriculum to offer required core content earlier in
program and to strengthen the program content in power and energy. In addition, the
business elective has been expanded to allow students more choices.
2) MOTION to revise SSE program curriculum as indicated:
Credit
hours
BASc in Software Systems
Engineering, required courses
Student's record of
courses completed
Semester 1 (Fall)
3.0 CHEM 104
3.0 ENGG 123
3.0 MATH 122
3.0 PHYS 109
3.0 MATH 110
Semester 2 (Winter)
3.0 CS 110
3.0 ENGG 100
3.0 ENGL 100
3.0 MATH 111
3.0 PHYS 119
Semester 3 (Fall)
3.0 ENEV 223 ENSE 474
3.0 CS 115
3.0 ENEL 280
3.0 MATH 213 MATH 217
3.0 ENGG 240
Semester 4 (Winter,
Spring/Summer)
3.0 CS 210
3.0 ENEL 282
3.0 ENIN 233
3.0 MATH 217 MATH 213
3.0 STAT 160
Semester 5 (Fall)
3.0 CS 215
3.0 CS 201 CS 340
3.0 ENEL 283 ENEV 223
3.0 ENEL 384 ENSE 352
3.0 PHYS 201
Semester 6 (Spring/Summer)
3.0 BUS 260
3.0 CS 372
3.0 ECON 201
3.0 ENEL 380
3.0 ENEL 390 ENSE 353
Semester 7 (Winter)
3.0 ENSE 350 ENSE 475
3.0 ENEL 387
3.0 Humanities Elective ENSE 470
3.0 Natural Science Elective
3.0 * Approved Stream Elective ENSE
471
Semester 8 (Fall)
1.0 ENSE 400
3.0 ENGG 303
3.0 ENSE 472
3.0 ENSE 474 ENEL 487
3.0 BUS 250
3.0 * Approved Stream Elective
6
APPENDIX II
Semester 9 (Winter)
3.0 ENGG 401
3.0 ENSE 470 Humanities Elective
3.0 ENSE 475
* Approved Stream
Elective
3.0 ENSE 477
3.0 * Approved Stream Elective
136.0 Total * Approved Electives:
Choose all electives from only one of the following streams:
Multimedia:
Courses from Media Production & Studies,
ENSE 482, CS 405 CS 325, CS 327
Knowledge Base:
CS 320, ENSE 480, ENSE 471 CS 375
Embedded Systems:
ENEL 487, ENSE 481, ENSE 483
Core Software:
ENSE 471, ENSE 473 and
1 course from the following list
ENEL 389, ENEL 392, ENEL 395, ENEL 437, ENEL 484,
ENEL 486, ENEL 487, ENEL 489, ENEL 494, ENEL495,
ENIN 340, ENIN 433, ENIN 440, ENIN 445, ENEV 334
Humanities Elective (choose one):
ENGL 110, PHIL 100, PHIL 241, PHIL 242, PHIL 272, PHIL
273, PHIL 275, RLST 100, WGST 100
Natural Science Elective (choose one):
from astronomy, biology, chemistry, geology and physics
Rationale: Based on CEAB and Industry Advisory Committee feedback, revising course
sequencing and curriculum to offer required applied software engineering contents earlier in the
program. The approved Software Systems stream electives have been revised to i) ensure that
prerequisites are satisfied and ii) to reflect demand.
3) MOTION to revise EVSE program approved electives as indicated:
Credit hours BASc in Environmental Systems
Engineering, required courses
Student's record of
courses completed
Semester 1 (Fall)
3.0 CHEM 104
3.0 ENGG 123
3.0 MATH 122
3.0 PHYS 109
3.0 MATH 110
Semester 2 (Winter)
3.0 CS 110
3.0 ENGG 100
3.0 ENGL 100
3.0 MATH 111
3.0 PHYS 119
7
APPENDIX II
Semester 3 (Fall)
3.0 CHEM 140
3.0 ENEV 223
3.0 ENGG 240
3.0 GEOL 102
3.0 ENEL 280
Semester 4 (Winter, Spring/Summer)
3.0 ECON 201
3.0 Humanities Elective
3.0 ENIN 241
3.0 MATH 213
3.0 STAT 160
Semester 5 (Fall)
3.0 ENEV 322
3.0 ENEV 261
3.0 ENEV 321
3.0 ENEV 372
3.0 ENEV 421
Semester 6 (Spring/Summer)
3.0 ENEV 281
3.0 ENEV 334
3.0 ENEV 384
3.0 ENEV 480
3.0 ENIN 253
Semester 7 (Winter)
3.0 ENEV 360
3.0 ENEV 422
3.0 ENEV 440
3.0 ENEV 462
3.0 *Approved Elective
Semester 8 (Fall)
1.0 ENEV 400
3.0 ENEV 435
3.0 ENEV 363
3.0 ENEV 383
3.0 ENGG 303
3.0 *Approved Elective
Semester 9 (Winter)
3.0 ENEV 415
3.0 ENEV 469
3.0 ENGG 401
8
APPENDIX II
3.0 *Approved Elective
3.0 *Approved Elective
136.0 Total
* Approved Electives (these electives may not be offered
regularly):
Choose at least three from the following: ENEV 465, ENEV 475,
ENEV 484, ENEV 463, ENEV 408, ENIN 350, ENIN 453, ENIN
455, ENPE 490
Choose at most one from the following: ENEV 463, ENIN 430,
ENIN 433, ENSE 474, BUS 260, BUS 302
Humanities Elective (choose one):
ENGL 110, PHIL 100, PHIL 241, PHIL 242, PHIL 272, PHIL
273, PHIL 275, RLST 100, WGST 100
Rationale: Based on CEAB review team’s suggestion, the changes will strengthen the
students’ speciality in their program area.
4) MOTION to revise ENHS program curriculum as indicated:
Credit
hours
BASc in Environmental Health
and Science, required courses
Student's record of
courses completed
Semester 1
3.0 BIOL 100
3.0 CS 100
3.0 ENGL 100
3.0 INHS 100
3.0 First Nations Language Arts
Elective (Indigenous Language
recommended)
Semester 2
3.0 CHEM 104
3.0 INHS 101
3.0 KHS 168 KIN 260
3.0 PHYS 109
3.0
Any elective offered by the Faculty of Arts
BIOL 101
Semester 3
3.0 CHEM 140
3.0 INHS 200
3.0 KHS 267 KIN 267
3.0 PHYS 119
3.0 MATH 103 or MATH 110 or MATH 105
Semester 4
3.0 BIOL 220 or BIOL 221*
3.0 ENHS 100
3.0 INHS 210 or INHS 111
3.0 STAT 100 or STAT 160
3.0
Basic science elective (BIOL 101*, CHEM 230, CS 110, CS 130, MATH 111 or STAT 152 STAT 200)
* Students who have taken BIOL 221 cannot take BIOL 101.
Semester 5
3.0 ENHS 101
9
APPENDIX II
3.0 ENHS 210
3.0 ENHS 320
3.0 ENEV 223 or ENHS 340
3.0 ENHS 310
Semester 6
3.0 ENHS 305
3.0 ENHS 321
3.0 ENHS 350
3.0 ENHS 380
3.0 ENHS 311
Semester 7
3.0 ENHS 420
3.0 ENHS 430
3.0 ENHS 440
3.0 ENEV 321 or ENHS 400
3.0 ENHS 435
Semester 8
3.0 ENHS 401
3.0 ENHS 468
3.0 ENHS 481
3.0 ENEV 422 or ENHS 450
3.0 ENHS 422
120.0 Total
Rationale: The First Nations Language requirement is intended to be removed but to recognize the
importance of language in the program the Arts Elective will be modified to recommend an
Indigenous Language course.
BIOL 221 is no longer offered.
ENHS 400 and ENHS 450 were never developed and taught; it is not feasible to develop and
offer in the foreseeable future because there will be fewer than 12 students registered any time
they would be offered.
BIOL 101 has been included as it is a prerequisite for BIOL 220 which is required. There is little
room to remove other courses. On the other hand, a single First Nations Language course has
limited applicability in Environmental Health related disciplines, and students will not be able to
work in communities as PHIs if they fail their Board examinations, so Board-required material
must take precedence. Furthermore, there is already considerable First Nations content in the
four required INHS courses. Finally, even the Indigenous Studies major program does not
contain an Indigenous Language requirement, so an Indigenous Language requirement seems
unnecessarily onerous in the ENHS program.
INHS 210 has been replaced with INHS 111 or INHS 210 because INHS 111 (Health Impact
Assessment) is more closely related to the ENHS program focus than INHS 210 (Contemporary
Health Issues). Furthermore, INHS 210 has some overlap with material from INHS 101, so INHS
210 may be redesigned or phased out in the near future.
KHS 168 has been replaced with KIN 260 as the KHS courses have been changed to equivalent
KIN courses.
KHS 267 has been replaced to KIN 267 as the KHS courses have been changed to equivalent
KIN courses.
10
APPENDIX II
MATH 110 or 105 revised to include MATH 103 because MATH 110 (Calculus with
trigonometry) is of limited value in the ENHS program. However, some mathematics is required
in the program. MATH 103 (Calculus for Business and the Social sciences, with the exponential
function) is a similar calculus course with a business and social science emphasis which is much
more relevant to the ENHS program. First Nations University currently does not offer MATH
110, but only MATH 103.
STAT 160 revised to include STAT 100 because STAT 160 is a course for specialists in statistics
or actuarial science or related disciplines. STAT 100 is a similar course, but for those who use
statistics in other disciplines. Furthermore, requiring only STAT 100 will enable the Department
of Interdisciplinary Programs to stop offering STAT 160.
II. ITEMS FOR INFORMATION
1) Sequencing change for ISE and PSE courses: move MATH 213 from semester 3 to
semester 4 and move MATH 217 from semester 4 to semester 3.
ISE Program Curriculum
Credit
hours
BASc in Industrial Systems
Engineering, required courses
Student's record of
courses completed
Semester 1 (Fall)
3.0 CHEM 104
3.0 ENGG 123
3.0 MATH 122
3.0 PHYS 109
3.0 MATH 110
Semester 2 (Winter)
3.0 CS 110
3.0 ENGG 100
3.0 ENGL 100
3.0 MATH 111
3.0 PHYS 119
Semester 3 (Fall)
3.0 ENEL 280
3.0 ENEV 223
3.0 ENGG 240
3.0 MATH 213 217
3.0 *Natural Science Elective
Semester 4 (Winter,
Spring/Summer)
3.0 ENIN 233
3.0 ENIN 241
3.0 MATH 217 213
3.0 STAT 160
3.0 *Humanities Elective
Semester 5 (Fall)
3.0 CHEM 140
3.0 ENEV 261
3.0 ENIN 331
3.0 ENIN 343
3.0 ENGG 330
Semester 6 (Spring/Summer)
3.0 BUS 260
3.0 ECON 201
3.0 ENEL 380
3.0 ENIN 253
3.0 ENIN 350
11
APPENDIX II
Semester 7 (Winter)
3.0 ENIN 370
3.0 ENIN 430
3.0 ENIN 440
3.0 ENIN 453
3.0 *Approved Elective
Semester 8 (Fall)
1.0 ENIN 400
3.0 BUS 250
3.0 ENIN 340
3.0 ENIN 444
3.0 ENGG 303
3.0 ENIN 349
Semester 9 (Winter)
3.0 BUS 210, 285, 302
3.0 ENGG 401
3.0 ENIN 413
3.0 ENIN 433
3.0 *Approved Elective
136.0 Total
*Approved Electives:
Choose two: ENEL 389, ENEL 484, ENIN 355, ENIN 445, ENIN 448, ENIN
455, ENIN 456, offered as follows:
ENIN 355: Winter semester
ENIN 445 and ENIN 456: Winter semester in even-numbered years
ENIN 448 and ENIN 455: Winter semester in odd-numbered years.
Humanities Elective (choose one): ENGL 110, PHIL 100, PHIL 241, PHIL
242, PHIL 272, PHIL 273, PHIL 275, RLST 100, WGST 100
Natural Science Elective (choose one): astronomy, biology, chemistry,
geology and physics.
PSE Program Curriculum
Credit
hours
BASc in Petroleum Systems
Engineering, required courses
Student's record of
courses completed
Semester 1 (Fall)
3.0 CHEM 104
3.0 ENGG 123
3.0 MATH 122
3.0 PHYS 109
3.0 MATH 110
Semester 2 (Winter)
3.0 CS 110
3.0 ENGG 100
3.0 ENGL 100
3.0 MATH 111
3.0 PHYS 119
Semester 3 (Fall)
3.0 ENGG 240
3.0 ENEL 280
3.0 ENPE 241
3.0 GEOL 102
3.0 MATH 213 217
Semester 4 (Winter,
Spring/Summer)
3.0 ECON 201
3.0 ENIN 233
3.0 ENPE 251
3.0 MATH 217 213
3.0 STAT 160
Semester 5 (Fall)
3.0 CHEM 140
3.0 ENGG 303
3.0 ENEV 261
12
APPENDIX II
3.0 ENGG 330
3.0 ENEV 223
Semester 6 (Spring/Summer)
3.0 BUS 260
3.0 ENIN 253
3.0 ENPE 300
3.0 ENPE 381
3.0 ENIN 350
Semester 7 (Winter)
3.0 ENIN 355
3.0 ENPE 302
3.0 ENPE 370
3.0 GEOL 270
3.0 *Humanities Elective
Semester 8 (Fall)
1.0 ENPE 400
3.0 ENPE 410
3.0 ENPE 440
3.0 ENPE 450
3.0 ENPE 460
3.0 *Approved Elective
Semester 9 (Winter)
3.0 ENGG 401
3.0 ENPE 419
3.0 ENPE 486
3.0 * Approved Elective
3.0 *Approved Elective
136.0 Total
*Approved Electives:
Choose three: ENIN 433, ENIN 453, ENIN 456, ENEV 422, ENPE 380, ENPE 470, ENPE 475, ENPE 490
Humanities Elective (choose one): ENGL 110, PHIL 100, PHIL 241, PHIL 242, PHIL 272, PHIL 273, PHIL 275, RLST 100, WGST 100
Rationale: To ensure that revised prerequisite for ENIN 233 is met.
2) To create new courses as indicated:
ENEL 281 3:3-3
Signals, Circuits & Systems
The introductory aspects of signals, circuits and systems including: AC circuit
analysis,frequency response, resonance, passive and active filters, second order transient
analysis, conversion between time domain and frequency domain signals using the
Laplace and Fourier Transforms.
***Prerequisite: MATH 217 (concurrent enrolment allowed) and ENEL 280***
ENEL 371 3:3-3
Power and Energy I
Introduction to concepts of energy and power systems including: single and three phase
ac power, delta-wye transformations, protection circuits and safety, transformers, and dc
motors.
***Prerequisite: ENEL 281 and PHYS 201***
Rationale: Based on CEAB review team’s suggestion, these two new courses will allow
for the introduction of core content to be introduced earlier into the students’ program.
13
APPENDIX II
ENSE 352 3:3-3
Fundamentals of Computer Systems Architectures
The course aims at providing the basic understanding of computer architecture. Topics
include handheld device architecture, operating systems, component software design, and
concurrent processing. Students are introduced to software concepts such as threading,
remote procedure calls, multitasking, deadlocks, and concurrency.
*** Prerequisite: CS 210 ***
ENSE 353 3:3-3
Software Design and Architecture
This course focuses on software systems architecture including object oriented
architecture, design concepts, database concepts, and graph theory. Case studies cover
different types of system architectures ranging from enterprise to industrial applications.
*** Prerequisite: CS 215 ***
Rationale: Based on CEAB review team’s suggestion, the two new courses improve the
SSE program by increasing the applied software engineering contents of the program.
3) Revise pre-requisites for courses as indicated:
ENEL 282 3:3-3
Semiconductor Devices
Semiconductor materials and conduction principles. The characteristics of common
semiconductor devices, including: PN junction diodes, bipolar and field effect transistors,
thyristors and photodiodes. Linear models, circuit analysis and application
examples.
***Prerequisite: PHYS 119, MATH 111, and ENEL 280***
ENEL 283 3:3-3
Analog Electronics
The introductory aspects of linear analog electronics, including: biasing circuits, linear
amplifier design, operational amplifiers and applications, power supplies, power
amplifiers, and analog filters.
***Prerequisite: ENEL 280 and 282***
ENEL 380 3:3-3
Control Systems
Introduction to the principles of control systems. System modeling, effects of feedback,
stability of systems, time and frequency response, compensation, analysis and design
techniques.
***Prerequisite: ENIN 233 and ENEL 280***
ENEL 389 3:3-3
Instrumentation
The study, analysis, and application of sensors and transducers considering the practical
aspects of noise, accuracy, precision, and calibration. The operation of electronic
measuring equipment, instrumentation systems, and interfacing.
***Prerequisite: ENEL 380 280***
14
APPENDIX II
ENEL 395 3:3-3
Transmission Lines and Antennas
Review of transmission line fundamentals, Smith charts, matching techniques, wave
guide theory and components, waveguides, fiber optics, antenna fundamentals, and RF
propagation.
***Prerequisite: ENEL 382 and MATH 213 ENEL 390 and PHYS 201***
ENEL 400 1:1-1
ESE Project Start-up
The main purpose of this course is to prepare students for their project design course,
ENEL 417. Students form design teams. The teams will propose, develop, & present
engineering design projects that they will pursue in ENEL 417. Each team will prepare a
project plan document and a preliminary design document. In addition, each project
group will orally present their proposal to their colleagues. Issues of safety, feasibility, &
engineering responsibility, will be considered in this course.
***Prerequisite: ENEL 390, ENEL 380, and ENEL 387 or permission of ESE Program
Chair (concurrent enrolment allowed) ***
ENEL 484 3:3-3
Digital Process Control
Introduction to sampled data control theory. Modeling, analysis and
design of digital control systems for industrial processes. Interfacing
to instrumentation and control hardware. Applications.
***Prerequisite: ENEL 389 380***
ENEV 321 3:3-4
Applied Environmental Science
Study of biochemical effects of human activities on the environment; ecology and
environmental pollution; materials and energy balances; chemical systems; basic
concepts of aquatic and soil chemistry; water resources; transport phenomena; water
pollution; human health risk assessment; water quality and treatment; wastewater
treatment; public health aspects.
*** Prerequisite: ENEV 223 CHEM 104 ***
ENEV 384 3:3-3
Engineering Materials
Structure and properties of engineering materials, particularly steel,
aggregate, and asphalt and Portland cement concretes. Introduction
to soils. Environmental aspects of materials.
***Prerequisite: CHEM 104103***
ENEV 400 1:1-0
EVSE Project Start-up
In this course a team design project for ENEV 415 is selected,
preliminary project information gathered, and a project plan prepared.
Students are advised to coordinate the chosen project topic with their
approved electives in order to be better prepared for the completion of
their ENEV 415 project.
15
APPENDIX II
***Prerequisite: ENEV 321, and ENEV 421 and an additional completion of 24 credit
hours of ENEV courses or permission of EVSE Program Chair ***
ENEV 408 3:3-3
Basic Structural Design
Design concepts and practices for simple beams, columns,
connectors and structures in wood, steel and reinforced concrete.
Basic types and problems in design of foundations.
***Prerequisite: ENIN 241, and ENGG 240 and ENEV 384***
ENEV 422 3:3-1
Solid and Hazardous Waste Management
Legislative trends; sources and characteristics of municipal solid
waste; Recycling waste materials; Collection, transfer and transport;
Disposal options; Sanitary landfill, incineration, composting and
bioconversion; Management and Planning; Hazardous Waste-
Problems, impacts and treatment/ disposal.
***Prerequisite: ENEV 321 ENEV 320***
ENEV 462 3:3-3
Engineering Hydrology
Introductory engineering hydrology course. Topics include rainfall,
snowmelt, infiltration, evaporation, streamflow, flood frequency
analysis, flood routing, and runoff modeling.
***Prerequisite: ENEV 261, 334, and CS 110***
ENEV 469 3:3-3
Groundwater Development & Contaminant Transport
Basic principles of fluid flow in saturated and unsaturated materials,
well problems, groundwater quality, discussion of salt water intrusion,
and modeling of groundwater flow and contaminant transport.
***Prerequisite: ENEV 261, ENEV 462, MATH 213 and ENEV 383
Concurrent enrolment allowed in ENEV 462. which may be taken concurrently.***
ENGG 100 3:3-4
Engineering Graphics
Fundamentals of graphical communication and analysis. Manual and computer-aided
sketching and drawing techniques; orthographic and pictorial projections; multi-view,
isometric and oblique drawings; basic descriptive geometry; introduction to working
drawings.
*** Prerequisite: ENGG 123 ***
ENGG 240 3:3-2
Engineering Science I - Mechanics
The application of the principles of mechanics to engineering problems. Topics include
resultants of force systems, laws of equilibrium, forces in simple structures, friction,
centroids, moments of inertia, kinematics and kinetics.
*** Prerequisite: MATH 110 111 and PHYS 109 119 ***
16
APPENDIX II
ENGG 330 3:3-3
Engineering Numerical Methods
Application of numerical methods to engineering problems; topics
includes sources and definitions of error, root finding, solutions of
linear and non-linear systems of equations, regression, interpolation,
numerical integration and differentiation, solution of initial value and
boundary value ordinary differential equations. Introduction to finite
difference and finite element methods. Applications include solving
problems with MATLAB and ANSYS.
***Prerequisite: CS 110, MATH 111, MATH 122 and STAT 160 and ENIN 233***
ENGG 436 3:3-0
Engineering Entrepreneurship
Explores the nature of engineering entrepreneurship; helps assess entrepreneurial
potential and career strategy; identifies sources of new venture ideas; develops selection
criteria, feasibility studies and venture proposal plans; and, addresses technological
entrepreneurship in small and large organizations.
*** Prerequisite: Completion of 60 credit hours ***
ENIN 233 3:3-2
System Dynamics
Lumped parameter linear analysis methods for mechanical, electrical, fluid and thermal
systems. Linear differential equations to analyze system response to step and sinusoidal
forcing functions. Analogous nature of these systems.
*** Prerequisite: MATH 217 (concurrent enrolment allowed) ***
ENIN 340 3:3-2
Human Factors Engineering
Anatomical, physiological, and psychological aspects of people in their work
environment. Sensory processes and motor function, health, and morale. Social factors,
stress, and psychosomatic effects. Work standards, safety, and schedules.
*** Prerequisite: ENIN 233 and ENIN 241***
ENIN 355 3:3-4
Heat Mass and Momentum Transfer
Differential equations of momentum, heat and mass transfer; dimensional analysis; heat
conduction and convection; boiling and condensation; molecular diffusion; convective
mass transfer; and, analogies between momentum, heat and mass transfer.
*** Prerequisite: ENIN 253 ENEV 261 and ENIN 350 ***
ENIN 370 3:3-3
Introduction to Mechatronics
Introduction to mechatronics; sensors and transducers, signal conditioning, mechanical
and electrical actuation systems. Control of DC/servo motors using Pulse Width
Modulation; system modeling, dynamic response of systems, closed-loop controllers,
microcontrollers, digital logic, and programmable logic controllers.
*** Prerequisite: ENEL 280 and ENEL 380 ENIN 233 ***
17
APPENDIX II
ENIN 400 1:1-3
ISE Project Start-up
Students form design teams and select a project topic and faculty supervisor. Each team
develops a project proposal, which is presented both orally and in written form.
*** Prerequisite: ENGG 123 and ENIN 453. Concurrent enrolment allowed in ENIN
453. ***
ENIN 413 3:0-1
ISE Team Design Project and Communications
Student's team design project is to be completed, written in acceptable report form and
presented. Instruction will be given on the preparation and presentation of engineering
reports in various audio/visual media.
*** Prerequisite: ENIN 400 (taken within same academic year) ***
ENIN 433 3:3-2
Risk Assessment and Decision Analysis
Probability of failure, hazards analysis, human reliability, reliability assessment, event
tree and fault tree analysis and risk-based decision-making; decision consideration,
inspection, testing and maintenance for critical components.
*** Prerequisite: STAT 289 160 and MATH 217 ***
ENIN 440 3:3-2
Statistical Quality Control
Assessment and control of manufacturing processes using control charts. Quality
inspection using acceptance sampling plans. Statistical tolerancing and process
capability studies.
*** Prerequisite: STAT 289 160***
ENIN 444 3:3-3
Computer-Aided Engineering
Computerized design aids, finite element analysis, design verification, simulation and
testing. Control fundamentals as applied to numerical control machine systems.
Specification, design, implementation and documentation of a design system. Robotics.
*** Prerequisite: ENIN 370 and CS 110 and ENIN 349. Concurrent enrolment
allowed in ENIN 349.***
ENIN 456 3:3-3
Process Unit Operations and Design
Principles and equipment design for momentum, heat, and mass transfer operations in
industries such as petrochemical and refining, mining and mineral processing, pulp and
paper, and food processing.
*** Prerequisite: ENIN 355 (concurrent enrolment is allowed) ***
ENPE 302 3:3-3
Applied Reservoir Engineering
Analysis and prediction of reservoir performance by use of material
18
APPENDIX II
balance. Reservoir performance by use of decline curves. Pressure
maintenance, oil trapping, capillary number correlations, fluid
displacement, fractional flow, displacement efficiency, areal and
vertical sweep efficiencies, waterflooding design, and gas injections.
***Prerequisite: ENPE 251 and ENPE 300***
ENPE 381 3:3-3
Natural Gas Engineering
Determination of gas properties; estimation of reserves, material
balance equation, decline curve analysis, and deliverability of
individual gas wells. Single and multiphase flow in pipes, gas-
condensate reservoirs; design of production facilities, metering,
compression, gas storage, transmission and pipeline transportation.
***Prerequisite: ENPE 300 (concurrent enrolment allowed) ENPE 241 and 251***
ENPE 400 1:1-0
ENPE Project Start-up
Definition of petroleum engineering design problems; identification of
projects' topics, partners, and supervisors; proposal writing for
engineering projects; approaches for carrying out the research and
design; and, approaches for communicating research and design
results.
***Prerequisite: ENPE 241, ENPE 251, ENPE 300, ENPE 302, and
ENPE 370 or permission of PSE Program Chair. Concurrent enrolment allowed in
ENPE 302 and 370.***
ENPE 410 3:3-3
Enhanced Oil Recovery Methods
Displacement processes for recovering additional hydrocarbons.
Waterflooding, gas flooding, solvent flooding, and thermal recovery
processes. Development of design techniques.
***Prerequisite: ENPE 300 and 302***
ENPE 470 3:3-3
Reservoir Modelling
Fundamentals of modeling in petroleum engineering. Simulation methods as applied to
specific problems in petroleum reservoir behavior; examples will be drawn from primary,
secondary, and tertiary recovery phases of petroleum production.
***Prerequisite: ENPE 410 ENPE 300 and ENGG 330***
ENPE 475 3:3-3
Evaluation of Oil and Gas Properties
General business skills related to the understanding of oil field cash
flow projections, rate of return, royalties, taxes and other factors in
measuring value creation as it relates to the petroleum industry.
***Prerequisite: ENPE 300, 302, ENPE 440 and ENGG 303***
19
APPENDIX II
ENPE 490 3:3-3
Petroleum Waste Management
Prevention and mitigation techniques in pipeline and oil field spills.
Downhole disposal of waste fluids, surface disposal of oil field wastes,
fire and other hazards, H2S and other toxic gases, and safety
standards.
***Prerequisite: ENPE 300 302 or ENEV 320 or ENEV 223***
ENSE 400 1:1-0
ENSE Project Start-up
Students are given the opportunity to propose, develop and present engineering design
projects which they are expected to further pursue in ENSE 477. Issues of safety,
feasibility, and engineering responsibility are discussed. Student form design teams in
this class and are expected to write a project plan document, compose a preliminary
design document, and present their project to their fellow students.
*** Prerequisite: ENEL 390, ENEL 380, and ENEL 387. Concurrent enrolment allowed
in ENEL 387. ENSE 470 ***
ENSE 470 3:3-3
Software Systems Design
This course introduces issues that arise in large-scale software projects. Topics:
introduction to software process, requirements analysis, UML, object modelling, design
patterns, API design principles, debugging and testing strategies, performance,
portability. Both individual and group programming projects will be assigned.
*** Prerequisite: CS 215 and CS 372 ***
ENSE 471 3:3-3
User Interface Programming
This course focuses on the design and implementation of computer-based user interfaces.
Topics: software architectures for interaction, computer graphics, I/O devices, user
interface design methodologies and principles, user interface evaluation.
*** Prerequisite: CS 215 and CS 372 ***
ENSE 474 3:3-0
Software Process Management
Planning, organizing, staffing, directing and controlling software projects; CMM and ISO
9000 process improvement models; life cycle deliverables; case studies of software
projects; exposure to a team software project.
*** Prerequisite: CS 215 and CS 372 ***
ENSE 475 3:3-0
Software Testing and Validation
Software testing strategies; functional and structural testing, unit and integration testing,
system testing, acceptance tests, ATE systems, test executives, diagnostic design and
20
APPENDIX II
ensuring testability; simulation for missing components; risk and reliability analysis,
safety critical systems, security tests.
*** Prerequisite: CS 215 and CS 372 and ENSE 350 ***
ENSE 477 3:8-0
Software Systems Engineering Design Project
Students work in teams on a practical software system project, requiring the following
application of software engineering fundamentals: requirement gathering and analysis,
appropriate software methods and tools, testing and validation, and software process
management. This course reinforces the engineering approach to development of a
software system.
*** Prerequisite: CS 215, CS 372, ENEL 387, and ENSE 400 ***
ENSE 480 3:3-3
Knowledge Base and Information Systems
This course analyzes the fundamentals of industrial knowledge management. Students
will learn how to analyze a company and how to produce an information system. Topics
include the fundamentals of Knowledge Base Management Information Systems and
their impact on the business process, engineering an information system, Workflow
Management Design, and reengineering for change management.
*** Prerequisite: CS 372 ***
ENSE 481 3:3-3
Embedded Systems and Co-design
Embedded systems are increasingly common in modern systems design. This course will
teach students how to take advantage of embedded systems technology in their system
designs. Topics include: advanced microcontroller real-time design, co-design,
embedded systems design issues, power considerations, and wireless considerations.
*** Prerequisite: CS 372, ENEL 387, and ENEL 487 ***
ENSE 483 3:3-3
Digital Wireless Systems
This course provides the skills necessary to understand and use systems from the point of
view of protocol, bandwidth, and spectrum allocation. Topics include spectrum
allocation, digital modulation, spread-spectrum communications fundamentals, digital
radio protocols for modern wireless systems, working with CDPD, Bluetooth, and IEE
802.11a/b, interference and collision.
*** Prerequisite: CS 372, ENEL 387, and ENEL 390 ***
Rationale: Pre-requisites are being reviewed for relevancy and to ensure that students
can progress through the program in a systematic order.
ENHS 310 3:3-3
Food Hygiene and Protection I
An introduction to the composition and structure of food. Topics include an overview of
21
APPENDIX II
human nutrition, comparative nutritional value of foods, additives, contamination,
spoilage, and preservation of food, with a focus on foods such as meat, fish, milk, and
milk products. The course emphasizes examples from First Nations settings.
*** Prerequisite: BIOL 220 or 221, and CHEM 240 140 ***
ENHS 320 3:3-0
Community Health and Epidemiology I
Introduces the basic principles and methods of epidemiology in environmental health
practice including outbreak investigations, the principles and methods of epidemiologic
study design, analysis of data and interpretation of results. Examples of communicable
and non-communicable disease epidemiology in First Nations are included.
*** Prerequisite: STAT 100 or STAT 160 151 or STAT 289, BIOL 220 or 221, and
KHS KIN 267 ***
ENHS 340 3:3-3
Human Environment Impact
(Essentially same as ENEV 320). Effects of human impact on environments; air, water,
wildlife, soil, vegetation. Departmental health and safety. Emphasis on First Nations
examples.
*** Prerequisite: CHEM 104 102 or CHEM 103, and BIOL 100 ***
* Note: Students may not receive credit for both ENHS 340 320 and ENEV 223 320. *
ENHS 401 3:3-0
Water and Wastewater Management
Introduction to the theory and design of water treatment and distribution systems, wells,
cisterns, surface water systems, wastewater treatment and the principles of hydrology and
hydraulics. Special attention is given to safe water supply designs for First Nations. The
course reviews recreational water maintenance including lakes and swimming pools.
*** Prerequisite: PHYS 119, and ENEV 321 or ENHS 400 ***
ENHS 435 3:3-0
Pest Control
Control of pests, particularly rodents and arthropods which act as vectors in disease
spread, with emphasis on diseases significant to First Nations. Chemical and biological
pest control methods, their use, cost, regulation, and safety measures are included. The
spread and control of vertebrate-borne diseases like rabies and salmonellosis are
discussed.
*** Prerequisite: BIOL 220 or 221, and KHS KIN 267 ***
ENHS 440 3:3-0
Environmental Toxicology
An introduction to the basic principles of environmental toxicology, the chemistry and
source of toxic substances, and the human exposure and dose-response relationships. The
methodologies, data sources, uncertainties and procedures for risk assessment are
covered. The course emphasizes environmental toxins of concern to First Nations.
*** Prerequisite: ENHS 340 or ENEV 223, and KHS KIN 267. ***
22
APPENDIX II
Rationale: Pre-requisites are being revised for housekeeping: i) courses are no longer
being taught, ii) have been renamed or iii) do not exist as they were never developed.
4) To delete ESE course as indicated:
ENEL 382 3:3-1.5
Electrical Circuits II
AC circuits analysis, phasors, impedence, frequency, response, resonance, filters, second
order transiet analysis, introduction to AC power systems.
*** Prerequisite: ENEL 280 ***
Rationale: The course content is being re-distributed to the new courses ENEL 281 and
ENEL 371.
23