Ά‘ΟγΤ°AV

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Ά‘ΟγΤ°AV Calendar | Fall 2018

Engineering Science, Computer Engineering Option Major

Bachelor of Applied Science

This program leads to a bachelor of applied science degree with a computer engineering option.

Engineering science students develop skills in systems design with a high level of scientific knowledge. This demanding program is aimed at the superior student. The program produces well educated, innovative engineer/scientists with entrepreneurial skills and attitudes who are oriented to new technologies. Program entry is competitive.

Students undertake a basic core of pure, applied and engineering sciences followed by studies in a specialized option. The general BASc program may be completed in eight academic terms plus a minimum of three co-op terms.

ENSC courses emphasize learning, conceptualization, design and analysis. Built into the program are courses on social impacts of technology, finance, management, design methods and entrepreneurship intended to complement scientific studies. A special, integrated communications course completed throughout the program ensures that all graduates have the communication skills necessary to be effective engineers.

The dynamic, on-going development and application of computer and digital systems requires computer systems engineers to have a balanced capability in software and hardware, and a solid engineering base.

Ά‘ΟγΤ°AV Requirements

The program begins each fall term. However, admitted students may enter in any term.

For detailed University admission requirements, visit  or email admissionsteam@sfu.ca. For more detailed School of Engineering Science admission information, visit , or send an email to asadvise@sfu.ca.

Minimum Ά‘ΟγΤ°AV Requirements

Applicants must be eligible for University admission, must submit a University application, and must have successfully completed the following high school courses: physics 12, mathematics 12, chemistry 12, and English 12.

External Transfer from Another Post-Secondary Institution

Ά‘ΟγΤ°AV is competitive. A minimum of 24 units of transferable coursework is required, including:

  • at least one mathematics course chosen from: MATH 152, MATH 232 (or 240);
  • at least one computing course chosen from: CMPT 128 (or 135; or (125 and 127)), and 225;
  • at least one physics course chosen from: PHYS 121 (or 141), PHYS 221, and PHYS 321 

Please see for further information.

Internal Transfer from Another Ά‘ΟγΤ°AV Program

Ά‘ΟγΤ°AV students who wish to transfer to Engineering Science from another program must have an engineering-related grade point average (ERGPA) at Ά‘ΟγΤ°AV of at least 2.5 with fewer than 6 repeated courses. In addition, in the term prior to requesting the transfer to the School of Engineering Science, the student must have been enrolled in at least 12 Ά‘ΟγΤ°AV credits and earned a term GPA of 2.5 or higher.

Ά‘ΟγΤ°AV students applying for admission to the School of Engineering Science are selected for admission on the basis of an engineering-related grade point average (ERGPA). The ERGPA is calculated over all courses the student has taken from this list, where a minimum of 3 courses from this list is required, such that:

  • at least one mathematics course chosen from MATH 151 (or 150), MATH 152, MATH 232 (or 240), MACM 101, MACM 201
  • at least one computing course chosen from CMPT 128 or 135 or (125 and 127), 225 and 275
  • at least one physics course chosen from PHYS 120 (or 140), PHYS 121 (or 141), PHYS 221, PHYS 321, PHYS 365
  • additional courses may include: CHEM 121

All three courses must be completed prior to application. For complete information, contact an Applied Sciences Advisor. If a course is a duplicate of any previous course completed at Ά‘ΟγΤ°AV or elsewhere, only the last attempt will be included in the average. Ά‘ΟγΤ°AV is competitive and the admission average is established on a per term basis, depending on the number of spaces available.

Second Degree

Please see www.sfu.ca/students/calendar/programs/engineering-science-second-degree/bachelor-of-applied-science.html for information on the requirements for admission to the second degree program. Program requirements for the Computer Engineering Option are listed below.

Minimum Grading Requirements

A C- grade or better in prerequisite courses is required to enroll in Engineering Science courses. In addition, students are required to have a minimum CGPA of 2.4 to enroll in 300 and 400 level Engineering Science courses. Engineering Science students with a CGPA below 2.4 need to see an advisor to obtain approval before enrolling. Students outside the Faculty of Applied Science may not enroll with a CGPA below 2.4. Please see /students/calendar/faculties-research/faculty-applied-sciences.html for information on the minimum CGPA required to remain in the Engineering Science program.

Minimum Course Load Policy

Ά‘ΟγΤ°AV ENSC students are expected to maintain a minimum course load of 12 units per term. Students are permitted to take fewer units in exceptional circumstances, provided that the average number of units per enrolled term does not drop below 10 units/term.

The minimum course load policy will be enforced once per year, after the completion of the Spring term. The Progress Rate will be calculated for each student as the number of units divided by the number of enrolled terms (excluding coop). Students who at the time of evaluation have a Progress Rate below the required minimum of 10.00 units/term, will be transferred to the BGS program.

Students who have completed 120 credits of the Engineering Science program are exempt from the minimum Progress Rate requirement, however they still have to meet the other requirements (i.e. minimum CGPA requirements, timely completion of coop, etc.).

Co-operative Education Work Experience

Every engineering science student completes three (3) work terms of practical experience in an appropriate industrial or research setting leading to a project under the technical direction of a practising engineer or scientist. The goal is a complementary combination of work in an industrial or research setting and study in one of the engineering options. The internship may be within the University but in most cases the work site is off campus.

After the first year, students typically alternate between academic and work terms.

At least two of the three mandatory work terms must be completed in industry (ENSC 195, 295, 395). Students may participate in additional work terms but are encouraged to seek diversity in their experience. The three mandatory work terms may include one special co-op term (ENSC 196, 296, 396). Special co-op may include, but is not restricted to, self-directed, entrepreneurial, service or research co-op work terms. Permission of the engineering science co-op office is required.

An optional non-technical work term (ENSC 194) is also available through the engineering science co-operative education office and is often completed after the first two study terms. ENSC 194 does not count toward the mandatory three course requirement.

Upper Division Enrollment Requirements

To be eligible to enroll in upper division engineering courses, excluding ENSC 320, students must have declared their option. Before a student can declare their option, they must have successfully completed at least one co-op term (ENSC 194, ENSC 195, or ENSC 196). Students that fail to complete the first co-op as scheduled will be required to meet with an Academic Advisor from the Faculty of Applied Sciences. Failure to complete the first co-op in a timely fashion will result in the student being transferred to the BGS Applied Sciences program.

There is an absolute minimum of 80 units completed to enroll in 400-level courses. Please note that specific courses may have higher requirements.

Program Requirements

Students complete the engineering science core course requirements as shown below, which includes additional course requirements for this computer engineering option. These courses provide basic science, general studies, engineering science, specialized engineering and science, and project and laboratory work.

This program’s core course requirements also consist of non-technical courses which broaden education and develop awareness of social, economic and managerial factors affecting engineering and scientific work.

Although there is no strict requirement to complete the curriculum in the sequence that is strongly suggested by the school, deviating from the course completion schedule may lead to scheduling and prerequisite problems in subsequent terms. To view the suggested course schedule, visit .

Core Course Requirements

The following core courses are required for the Engineering Science Major in Computer Engineering and cannot be substituted for "equivalent" courses in other areas without prior approval by the School. "Equivalent" courses taken without prior approval will not be applied to graduation requirements. Students should consult an academic advisor within their program for details on obtaining permission.

CHEM 121 - General Chemistry and Laboratory I (4)

Atomic and molecular structure; chemical bonding; thermochemistry; elements; periodic table; gases liquids, solids, and solutions. This course includes a laboratory component. Prerequisite: BC high school chemistry 12 or CHEM 109 or CHEM 111. Students may not count both CHEM 120 and 121 for credit. Quantitative/Breadth-Science.

Section Instructor Day/Time Location
Daniel Leznoff
Jeffrey Warren
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 10:30–11:20 a.m.
Burnaby
D101 Sep 4 – Dec 3, 2018: Wed, 9:30–10:20 a.m.
Burnaby
D102 Sep 4 – Dec 3, 2018: Wed, 11:30 a.m.–12:20 p.m.
Burnaby
D103 Sep 4 – Dec 3, 2018: Wed, 12:30–1:20 p.m.
Burnaby
D104 Sep 4 – Dec 3, 2018: Wed, 1:30–2:20 p.m.
Burnaby
D105 Sep 4 – Dec 3, 2018: Wed, 2:30–3:20 p.m.
Burnaby
D106 Sep 4 – Dec 3, 2018: Thu, 10:30–11:20 a.m.
Burnaby
D107 Sep 4 – Dec 3, 2018: Thu, 11:30 a.m.–12:20 p.m.
Burnaby
D108 Sep 4 – Dec 3, 2018: Thu, 12:30–1:20 p.m.
Burnaby
D109 Sep 4 – Dec 3, 2018: Thu, 1:30–2:20 p.m.
Burnaby
D110 Sep 4 – Dec 3, 2018: Thu, 2:30–3:20 p.m.
Burnaby
D111 Sep 4 – Dec 3, 2018: Fri, 9:30–10:20 a.m.
Burnaby
D112 Sep 4 – Dec 3, 2018: Fri, 11:30 a.m.–12:20 p.m.
Burnaby
D113 Sep 4 – Dec 3, 2018: Fri, 11:30 a.m.–12:20 p.m.
Burnaby
D114 Sep 4 – Dec 3, 2018: Fri, 12:30–1:20 p.m.
Burnaby
D115 Sep 4 – Dec 3, 2018: Fri, 1:30–2:20 p.m.
Burnaby
D116 Sep 4 – Dec 3, 2018: Fri, 2:30–3:20 p.m.
Burnaby
D117 Sep 4 – Dec 3, 2018: Fri, 3:30–4:20 p.m.
Burnaby
Daniel Leznoff
Jeffrey Warren
Sep 4 – Dec 3, 2018: Mon, Fri, 12:30–1:20 p.m.
Sep 4 – Dec 3, 2018: Wed, 12:30–1:20 p.m.
Burnaby
Burnaby
D201 Sep 4 – Dec 3, 2018: Wed, 10:30–11:20 a.m.
Burnaby
D202 Sep 4 – Dec 3, 2018: Wed, 1:30–2:20 p.m.
Burnaby
D203 Sep 4 – Dec 3, 2018: Thu, 11:30 a.m.–12:20 p.m.
Burnaby
D204 Sep 4 – Dec 3, 2018: Thu, 12:30–1:20 p.m.
Burnaby
D205 Sep 4 – Dec 3, 2018: Fri, 10:30–11:20 a.m.
Burnaby
D206 Sep 4 – Dec 3, 2018: Fri, 1:30–2:20 p.m.
Burnaby
Garry Mund
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 12:30–1:20 p.m.
Surrey
D301 Sep 4 – Dec 3, 2018: Mon, 10:30–11:20 a.m.
Surrey
D302 Sep 4 – Dec 3, 2018: Mon, 11:30 a.m.–12:20 p.m.
Surrey
D303 Sep 4 – Dec 3, 2018: Mon, 1:30–2:20 p.m.
Surrey
D304 Sep 4 – Dec 3, 2018: Mon, 2:30–3:20 p.m.
Surrey
D305 Sep 4 – Dec 3, 2018: Mon, 3:30–4:20 p.m.
Surrey
D307 Sep 4 – Dec 3, 2018: Mon, 1:30–2:20 p.m.
Surrey
Garry Mund
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 8:30–9:20 a.m.
Surrey
D401 Sep 4 – Dec 3, 2018: Mon, 9:30–10:20 a.m.
Surrey
LA03 Julie Lunniss
Sep 4 – Dec 3, 2018: Tue, 1:30–5:20 p.m.
Burnaby
LA04 Julie Lunniss
Sep 4 – Dec 3, 2018: Wed, 1:30–5:20 p.m.
Burnaby
LA05 Julie Lunniss
Sep 4 – Dec 3, 2018: Thu, 8:30 a.m.–12:20 p.m.
Burnaby
LA06 Julie Lunniss
Sep 4 – Dec 3, 2018: Thu, 1:30–5:20 p.m.
Burnaby
LB03 Julie Lunniss
Sep 4 – Dec 3, 2018: Tue, 1:30–5:20 p.m.
Burnaby
LB04 Julie Lunniss
Sep 4 – Dec 3, 2018: Wed, 1:30–5:20 p.m.
Burnaby
LB05 Julie Lunniss
Sep 4 – Dec 3, 2018: Thu, 8:30 a.m.–12:20 p.m.
Burnaby
LB06 Julie Lunniss
Sep 4 – Dec 3, 2018: Thu, 1:30–5:20 p.m.
Burnaby
LB13 Julie Lunniss
Sep 4 – Dec 3, 2018: Tue, 1:30–5:20 p.m.
Burnaby
LB14 Julie Lunniss
Sep 4 – Dec 3, 2018: Wed, 1:30–5:20 p.m.
Burnaby
LB15 Julie Lunniss
Sep 4 – Dec 3, 2018: Thu, 8:30 a.m.–12:20 p.m.
Burnaby
LB16 Julie Lunniss
Sep 4 – Dec 3, 2018: Thu, 1:30–5:20 p.m.
Burnaby
LC01 Garry Mund
Sep 4 – Dec 3, 2018: Tue, 8:30 a.m.–12:20 p.m.
Surrey
LC02 Garry Mund
Sep 4 – Dec 3, 2018: Tue, 8:30 a.m.–12:20 p.m.
Surrey
LC03 Garry Mund
Sep 4 – Dec 3, 2018: Tue, 1:30–5:20 p.m.
Surrey
LC04 Garry Mund
Sep 4 – Dec 3, 2018: Tue, 1:30–5:20 p.m.
Surrey
LC05 Garry Mund
Sep 4 – Dec 3, 2018: Wed, 10:00 a.m.–1:50 p.m.
Surrey
LE01 TBD
LE02 TBD
LE03 TBD
CMPT 128 - Introduction to Computing Science and Programming for Engineers (3)

An introduction to computing science and computer programming, suitable for students wishing to major in Engineering Science or a related program. This course introduces basic computing science concepts, and fundamentals of object oriented programming. Topics include: fundamental algorithms and problem solving; abstract data types and elementary data structures; basic object-oriented programming and software design; elements of empirical and theoretical algorithmics; computation and computability; specification and program correctness; and history of computing science. The course will use a programming language commonly used in Engineering Science. Prerequisite: BC Math 12 (or equivalent, or any of MATH 100, 150, 151, 154, or 157). Students with credit for CMPT 102, 120, 130 or 166 may not take this course for further credit. Students who have taken CMPT 125, 129, 135, or CMPT 200 or higher first may not then take this course for further credit. Quantitative/Breadth-Science.

Section Instructor Day/Time Location
Ghassan Hamarneh
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 11:30 a.m.–12:20 p.m.
Burnaby
D101 Ghassan Hamarneh
Sep 4 – Dec 3, 2018: Tue, 8:30–10:20 a.m.
Burnaby
D102 Ghassan Hamarneh
Sep 4 – Dec 3, 2018: Tue, 8:30–10:20 a.m.
Burnaby
D103 Ghassan Hamarneh
Sep 4 – Dec 3, 2018: Tue, 10:30 a.m.–12:20 p.m.
Burnaby
D104 Ghassan Hamarneh
Sep 4 – Dec 3, 2018: Tue, 10:30 a.m.–12:20 p.m.
Burnaby
D105 Ghassan Hamarneh
Sep 4 – Dec 3, 2018: Tue, 2:30–4:20 p.m.
Burnaby
D106 Ghassan Hamarneh
Sep 4 – Dec 3, 2018: Tue, 2:30–4:20 p.m.
Burnaby
D107 Ghassan Hamarneh
Sep 4 – Dec 3, 2018: Tue, 4:30–6:20 p.m.
Burnaby
D108 Ghassan Hamarneh
Sep 4 – Dec 3, 2018: Tue, 4:30–6:20 p.m.
Burnaby
CMPT 225 - Data Structures and Programming (3)

Introduction to a variety of practical and important data structures and methods for implementation and for experimental and analytical evaluation. Topics include: stacks, queues and lists; search trees; hash tables and algorithms; efficient sorting; object-oriented programming; time and space efficiency analysis; and experimental evaluation. Prerequisite: (MACM 101 and ((CMPT 125 and 127), CMPT 129 or CMPT 135)) or (ENSC 251 and ENSC 252). Quantitative.

Section Instructor Day/Time Location
Ramesh Krishnamurti
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 10:30–11:20 a.m.
Burnaby
D101 Ramesh Krishnamurti
Sep 4 – Dec 3, 2018: Mon, 12:30–1:20 p.m.
Burnaby
D102 Ramesh Krishnamurti
Sep 4 – Dec 3, 2018: Mon, 12:30–1:20 p.m.
Burnaby
D103 Ramesh Krishnamurti
Sep 4 – Dec 3, 2018: Mon, 1:30–2:20 p.m.
Burnaby
D104 Ramesh Krishnamurti
Sep 4 – Dec 3, 2018: Mon, 1:30–2:20 p.m.
Burnaby
D105 Ramesh Krishnamurti
Sep 4 – Dec 3, 2018: Mon, 2:30–3:20 p.m.
Burnaby
D106 Ramesh Krishnamurti
Sep 4 – Dec 3, 2018: Mon, 2:30–3:20 p.m.
Burnaby
D107 Ramesh Krishnamurti
Sep 4 – Dec 3, 2018: Mon, 3:30–4:20 p.m.
Burnaby
D108 Ramesh Krishnamurti
Sep 4 – Dec 3, 2018: Mon, 3:30–4:20 p.m.
Burnaby
Toby Donaldson
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 2:30–3:20 p.m.
Surrey
D201 Toby Donaldson
Sep 4 – Dec 3, 2018: Tue, 9:30–10:20 a.m.
Surrey
D202 Toby Donaldson
Sep 4 – Dec 3, 2018: Tue, 10:30–11:20 a.m.
Surrey
D203 Toby Donaldson
Sep 4 – Dec 3, 2018: Tue, 11:30 a.m.–12:20 p.m.
Surrey
D204 Toby Donaldson
Sep 4 – Dec 3, 2018: Tue, 12:30–1:20 p.m.
Surrey
CMPT 275 - Software Engineering I (4)

Introduction to software engineering techniques used in analysis/design and in software project management. The course centres on a team project involving requirements gathering, object analysis and simple data normalization, use-case-driven user documentation and design followed by implementation and testing. Additionally, there is an introduction to project planning, metrics, quality assurance, configuration management, and people issues. Prerequisite: One W course, CMPT 225, (MACM 101 or (ENSC 251 and ENSC 252)) and (MATH 151 or MATH 150). MATH 154 or MATH 157 with at least a B+ may be substituted for MATH 151 or MATH 150. Students with credit for CMPT 276 may not take this course for further credit.

Section Instructor Day/Time Location
Herbert Tsang
Sep 4 – Dec 3, 2018: Mon, 5:30–8:20 p.m.
Burnaby
CMPT 300 - Operating Systems I (3)

This course aims to give the student an understanding of what a modern operating system is, and the services it provides. It also discusses some basic issues in operating systems and provides solutions. Topics include multiprogramming, process management, memory management, and file systems. Prerequisite: CMPT 225 and (MACM 101 or (ENSC 251 and ENSC 252)).

Section Instructor Day/Time Location
Keval Vora
Sep 4 – Dec 3, 2018: Mon, 11:30 a.m.–12:20 p.m.
Sep 4 – Dec 3, 2018: Wed, 11:30 a.m.–12:20 p.m.
Sep 4 – Dec 3, 2018: Fri, 11:30 a.m.–12:20 p.m.
Burnaby
Burnaby
Burnaby
Keval Vora
Sep 4 – Dec 3, 2018: Mon, 2:30–3:20 p.m.
Sep 4 – Dec 3, 2018: Wed, 2:30–3:20 p.m.
Sep 4 – Dec 3, 2018: Fri, 2:30–3:20 p.m.
Burnaby
Burnaby
Burnaby
ECON 103 - Principles of Microeconomics (4)

The principal elements of theory concerning utility and value, price and costs, factor analysis, productivity, labor organization, competition and monopoly, and the theory of the firm. Students with credit for ECON 200 cannot take ECON 103 for further credit. Quantitative/Breadth-Soc.

Section Instructor Day/Time Location
Marie Rekkas
Sep 4 – Dec 3, 2018: Tue, 8:30–10:20 a.m.
Sep 4 – Dec 3, 2018: Thu, 8:30–9:20 a.m.
Burnaby
Burnaby
D101 Sep 4 – Dec 3, 2018: Tue, 1:30–2:20 p.m.
Burnaby
D102 Sep 4 – Dec 3, 2018: Tue, 4:30–5:20 p.m.
Burnaby
D103 Sep 4 – Dec 3, 2018: Tue, 3:30–4:20 p.m.
Burnaby
D104 Sep 4 – Dec 3, 2018: Tue, 4:30–5:20 p.m.
Burnaby
D105 Sep 4 – Dec 3, 2018: Tue, 5:30–6:20 p.m.
Burnaby
D106 Sep 4 – Dec 3, 2018: Wed, 8:30–9:20 a.m.
Burnaby
D107 Sep 4 – Dec 3, 2018: Wed, 8:30–9:20 a.m.
Burnaby
D108 Sep 4 – Dec 3, 2018: Wed, 8:30–9:20 a.m.
Burnaby
D109 Sep 4 – Dec 3, 2018: Wed, 10:30–11:20 a.m.
Burnaby
D110 Sep 4 – Dec 3, 2018: Wed, 10:30–11:20 a.m.
Burnaby
D111 Sep 4 – Dec 3, 2018: Wed, 11:30 a.m.–12:20 p.m.
Burnaby
D112 Sep 4 – Dec 3, 2018: Wed, 12:30–1:20 p.m.
Burnaby
D113 Sep 4 – Dec 3, 2018: Wed, 12:30–1:20 p.m.
Burnaby
D114 Sep 4 – Dec 3, 2018: Wed, 1:30–2:20 p.m.
Burnaby
D115 Sep 4 – Dec 3, 2018: Wed, 12:30–1:20 p.m.
Burnaby
D116 Sep 4 – Dec 3, 2018: Wed, 3:30–4:20 p.m.
Burnaby
D117 Sep 4 – Dec 3, 2018: Wed, 4:30–5:20 p.m.
Burnaby
D118 Sep 4 – Dec 3, 2018: Wed, 4:30–5:20 p.m.
Burnaby
D119 Sep 4 – Dec 3, 2018: Wed, 4:30–5:20 p.m.
Burnaby
D120 Sep 4 – Dec 3, 2018: Wed, 5:30–6:20 p.m.
Burnaby
D121 Sep 4 – Dec 3, 2018: Wed, 5:30–6:20 p.m.
Burnaby
D122 Sep 4 – Dec 3, 2018: Wed, 5:30–6:20 p.m.
Burnaby
D123 Sep 4 – Dec 3, 2018: Tue, 10:30–11:20 a.m.
Burnaby
D124 Sep 4 – Dec 3, 2018: Tue, 5:30–6:20 p.m.
Burnaby
Martin Santamaria
Sep 4 – Dec 3, 2018: Tue, 8:30–10:20 a.m.
Sep 4 – Dec 3, 2018: Thu, 8:30–9:20 a.m.
Burnaby
Burnaby
D201 Sep 4 – Dec 3, 2018: Tue, 10:30–11:20 a.m.
Burnaby
D202 Sep 4 – Dec 3, 2018: Tue, 4:30–5:20 p.m.
Burnaby
D203 Sep 4 – Dec 3, 2018: Tue, 12:30–1:20 p.m.
Burnaby
D204 Sep 4 – Dec 3, 2018: Tue, 1:30–2:20 p.m.
Burnaby
D205 Sep 4 – Dec 3, 2018: Tue, 5:30–6:20 p.m.
Burnaby
D206 Sep 4 – Dec 3, 2018: Tue, 3:30–4:20 p.m.
Burnaby
D207 Sep 4 – Dec 3, 2018: Tue, 4:30–5:20 p.m.
Burnaby
D208 Sep 4 – Dec 3, 2018: Wed, 4:30–5:20 p.m.
Burnaby
D209 Sep 4 – Dec 3, 2018: Wed, 8:30–9:20 a.m.
Burnaby
D210 Sep 4 – Dec 3, 2018: Wed, 8:30–9:20 a.m.
Burnaby
D211 Sep 4 – Dec 3, 2018: Wed, 10:30–11:20 a.m.
Burnaby
D212 Sep 4 – Dec 3, 2018: Wed, 12:30–1:20 p.m.
Burnaby
D213 Sep 4 – Dec 3, 2018: Wed, 12:30–1:20 p.m.
Burnaby
D214 Sep 4 – Dec 3, 2018: Wed, 1:30–2:20 p.m.
Burnaby
D215 Sep 4 – Dec 3, 2018: Wed, 5:30–6:20 p.m.
Burnaby
D216 Sep 4 – Dec 3, 2018: Wed, 3:30–4:20 p.m.
Burnaby
Seong Choi
Sep 4 – Dec 3, 2018: Tue, Thu, 12:30–2:20 p.m.
Surrey
ENSC 100W - Engineering, Science and Society (3)

We study the history of engineering, its changing relationship to the sciences, and its effects upon society. We cover the ethical and environmental implications of engineering choices. We briefly explore the fundamental concepts in artificial intelligence, information theory, and thermodynamics. Students in the course will work together in small teams to complete a practical engineering design project. Corequisite: ENSC 105W. Students with credit for ENSC 100, CMPT 106, ENSC 106, or MSE 102 may not take this course for further credit. Writing/Breadth-Hum/Science.

Section Instructor Day/Time Location
Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Mon, 12:30–2:20 p.m.
Sep 4 – Dec 3, 2018: Wed, 12:30–1:20 p.m.
Burnaby
Burnaby
LA05 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Wed, 1:30–2:20 p.m.
Burnaby
LA06 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Wed, 1:30–2:20 p.m.
Burnaby
LA07 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Wed, 1:30–2:20 p.m.
Burnaby
LA08 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Wed, 4:30–5:20 p.m.
Burnaby
LA09 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Wed, 4:30–5:20 p.m.
Burnaby
LA10 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Wed, 4:30–5:20 p.m.
Burnaby
LA11 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Thu, 8:30–9:20 a.m.
Burnaby
LA12 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Thu, 8:30–9:20 a.m.
Burnaby
LA13 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Tue, 4:30–5:20 p.m.
Burnaby
LA14 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Thu, 9:30–10:20 a.m.
Burnaby
LA15 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Thu, 11:30 a.m.–12:20 p.m.
Burnaby
LA16 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Thu, 11:30 a.m.–12:20 p.m.
Burnaby
LA17 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Thu, 12:30–1:20 p.m.
Burnaby
LA18 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Thu, 12:30–1:20 p.m.
Burnaby
LA19 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Thu, 1:30–2:20 p.m.
Burnaby
LA20 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Thu, 1:30–2:20 p.m.
Burnaby
LA21 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Tue, 4:30–5:20 p.m.
Burnaby
LA22 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Thu, 3:30–4:20 p.m.
Burnaby
LA23 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Fri, 12:30–1:20 p.m.
Burnaby
LA24 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Fri, 12:30–1:20 p.m.
Burnaby
LA25 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Fri, 1:30–2:20 p.m.
Burnaby
LA26 Michael Sjoerdsma
Sep 4 – Dec 3, 2018: Fri, 1:30–2:20 p.m.
Burnaby
ENSC 105W - Process, Form, and Convention in Professional Genres (3)

The course teaches fundamentals of informative and persuasive communication for professional engineers and computer scientists in order to assist students in thinking critically about various contemporary technical, social, and ethical issues. It focuses on communicating technical information clearly and concisely, managing issues of persuasion when communicating with diverse audiences, presentation skills, and teamwork. Corequisite: CMPT 106, ENSC 100 or ENSC 106. Students with credit for CMPT 105W, ENSC 102 or MSE 101W may not take ENSC 105W for further credit. Writing.

Section Instructor Day/Time Location
Steve Whitmore
Sep 4 – Dec 3, 2018: Mon, Fri, 10:30–11:20 a.m.
Sep 4 – Dec 3, 2018: Wed, 10:30–11:20 a.m.
Burnaby
Burnaby
ENSC 120 - Introduction to Electronics Laboratory Instruments Operation and Measurement Techniques (2)

This introductory laboratory course will familiarize the students with operating electronics laboratory instrumentation such as linear power supply, digital multi-meter, function generator and oscilloscope. Students are expected to perform 6 lab experiments and submit a work-sheet for each lab session. A final examination will be conducted (individually) to test the proficiency. Laboratory and workplace safety lectures and examinations are covered in this course. Prerequisite: BC Pre-Calculus 12 and BC Physics 12 (or equivalents).

Section Instructor Day/Time Location
Atousa Hajshirmohammadi
Sep 4 – Dec 3, 2018: Thu, 4:30–6:20 p.m.
Burnaby
LA03 Atousa Hajshirmohammadi
Sep 4 – Dec 3, 2018: Tue, 12:30–2:20 p.m.
Burnaby
LA04 Atousa Hajshirmohammadi
Sep 4 – Dec 3, 2018: Tue, 12:30–2:20 p.m.
Burnaby
LA07 Atousa Hajshirmohammadi
Sep 4 – Dec 3, 2018: Thu, 10:30 a.m.–12:20 p.m.
Burnaby
LA08 Atousa Hajshirmohammadi
Sep 4 – Dec 3, 2018: Thu, 10:30 a.m.–12:20 p.m.
Burnaby
LA09 Atousa Hajshirmohammadi
Sep 4 – Dec 3, 2018: Thu, 12:30–2:20 p.m.
Burnaby
LA10 Atousa Hajshirmohammadi
Sep 4 – Dec 3, 2018: Thu, 12:30–2:20 p.m.
Burnaby
ENSC 180 - Introduction to Engineering Analysis (3)

Introduction to MATLAB and its use in engineering. Implementation, verification, and analysis of various engineering algorithms used in signal and image processing, robotics, communications engineering. Prerequisite: (CMPT 128, CMPT 120, or CMPT 130)and (MATH 151 or MATH 150). Corequisite: MATH 152 and MATH 232.

ENSC 204 - Graphical Communication for Engineering (1)

An introduction to the use of graphical communication in engineering. Objectives are to improve the students' literacy in the use of graphics to communicate engineering information, and their ability to visualize and to think in three dimensions. Specific application areas discussed include 2D and 3D geometry in mechanical drawing, electronics-related drawings, block diagrams, and flow charts. The use of CAD tools will be discussed, and demonstrations of some tools will be provided. Students with credit for ENSC 103, ENSC 104, or MSE 100 cannot take ENSC 204 for further credit.

Section Instructor Day/Time Location
Balbir Gill
Sep 4 – Dec 3, 2018: Wed, 9:30–10:20 a.m.
Burnaby
ENSC 220 - Electric Circuits I (4)

Fundamental electrical circuit quantities, and circuit elements; circuits laws such as Ohm law, Kirchoff's voltage and current laws, along with series and parallel circuits; operational amplifiers; network theorems; nodal and mesh methods; analysis of natural and step response of first (RC and RL), as well as second order (RLC) circuits; real, reactive and rms power concepts. In addition, the course will discuss the worker safety implications of both electricity and common laboratory practices such as soldering. Prerequisite: (PHYS 121 or PHYS 126 or PHYS 141), ENSC 120, MATH 232 and MATH 310. MATH 232 and/or MATH 310 may be taken concurrently. Students with credit for MSE 250 cannot take this course for further credit. Quantitative.

Section Instructor Day/Time Location
Ash Parameswaran
Sep 4 – Dec 3, 2018: Tue, Thu, 12:30–2:20 p.m.
Burnaby
D101 Ash Parameswaran
TBD
LA01 Ash Parameswaran
Sep 4 – Dec 3, 2018: Mon, 4:30–6:50 p.m.
Burnaby
LA02 Ash Parameswaran
Sep 4 – Dec 3, 2018: Thu, 2:30–4:50 p.m.
Burnaby
LA03 Ash Parameswaran
Sep 4 – Dec 3, 2018: Fri, 9:30–11:50 a.m.
Burnaby
ENSC 225 - Microelectronics I (4)

This course teaches analog/digital electronics and basic device physics in the context of modern silicon integrated circuits technology. Topics include: qualitative device physics and terminal characteristics; implementations and models of basic semiconductor devices (diodes, BJTs and MOSFETs); circuit simulation via SPICE; basic diode circuits; transistors as amplifiers and switching elements; temperature effects and compensation; single-stage transistor amplifiers; biasing, current sources and mirrors. Prerequisite: (ENSC 220 or MSE 250), MATH 232, and MATH 310. Students taking or with credit for ENSC 226 or MSE 251 may not take ENSC 225 for further credit. Quantitative.

ENSC 251 - Software Design and Analysis for Engineers (4)

Fundamentals for designing and implementing modular programs using a modern object-oriented programming language with a focus on understanding the performance implications of design choices on non-traditional computing platforms. Lecture topics include: classes; objects; debugging, testing & verification; design analysis & abstraction; error handling; fundamental data structures such as lists, trees, and graphs; and big-0 complexity analysis.computing platforms. Lecture topics include: classes; objects; debugging, testing & verification ; design analysis & abstraction ; error handling; fundamental data structures such as lists, trees, and graphs; and big-0 complexity analysis. Prerequisite: CMPT 128 or CMPT 135 or (CMPT 125 and CMPT 127).

Section Instructor Day/Time Location
Karol Swietlicki
Sep 4 – Dec 3, 2018: Mon, 10:30 a.m.–12:20 p.m.
Sep 4 – Dec 3, 2018: Wed, 10:30 a.m.–12:20 p.m.
Burnaby
Burnaby
D101 Karol Swietlicki
TBD
LA01 Karol Swietlicki
Sep 4 – Dec 3, 2018: Tue, 2:30–4:50 p.m.
Burnaby
LA03 Karol Swietlicki
Sep 4 – Dec 3, 2018: Thu, 2:30–4:50 p.m.
Burnaby
LA04 Karol Swietlicki
Sep 4 – Dec 3, 2018: Fri, 9:30–11:50 a.m.
Burnaby
ENSC 252 - Fundamentals of Digital Logic & Design (4)

Design of digital systems. In particular, students will learn basic digital design concepts including the implementation of synthesizable combinational and sequential logic using HDL and computer based design tools to implement their designs on a FPGA. Prerequisite: CMPT 128 or CMPT 125 or CMPT 126 or CMPT 135. ENSC 252 is a required course for all Engineering Science Majors and Honours Students (no course substitutions are permitted). Students with credit for ENSC/CMPT 150 or ENSC 329/MSE 350 cannot take this course for further credit.

Section Instructor Day/Time Location
Anita Tino
Sep 4 – Dec 3, 2018: Tue, 8:30–10:20 a.m.
Sep 4 – Dec 3, 2018: Thu, 8:30–10:20 a.m.
Burnaby
Burnaby
D101 Anita Tino
TBD
LA01 Anita Tino
Sep 4 – Dec 3, 2018: Tue, 2:30–4:50 p.m.
Burnaby
LA03 Anita Tino
Sep 4 – Dec 3, 2018: Fri, 9:30–11:50 a.m.
Burnaby
LA04 Anita Tino
Sep 4 – Dec 3, 2018: Fri, 1:30–3:50 p.m.
Burnaby
ENSC 254 - Introduction to Computer Organization (4)

Fundamentals of microprocessor architecture and operation; this includes instruction formats, assembly language programming (procedures and parameter passing, interrupts, etc), and memory and 1/0 port interfaces. Prerequisite: (ENSC 251 & ENSC 252) or (CMPT 150 & CMPT 225 & enrolled as a Computing Science Major). ENSC 254 is a required course for all Engineering Science Majors and Honours students (no course substitutions are permitted). Students with credit for, or who are concurrently enrolled in ENSC/CMPT 250 or ENSC 329/MSE 350 cannot take this course for further credit.

ENSC 280 - Engineering Measurement and Data Analysis (4)

Methods to collect and analyze engineering data. Topics include: engineering data representation, discrete and continuous probability density functions, engineering measurements, error analysis, test of hypotheses, linear and nonlinear regression, and design of experiments. This course includes a significant laboratory component comprising: laboratory measurements and statistical analysis of electronic circuits, introduction to electronic device behaviour, instrument noise. Prerequisite: ((PHYS 121 and ENSC 120) or PHYS 141) and (MATH 251 and MATH 232). MATH 251 and/or MATH 232 may be taken concurrently with ENSC 280. Engineering Science Majors and Honours students are requires to take ENSC 280 (no course substitutions will be accepted). Students with credit for STAT 270, MSE 210, or PHYS 231 cannot take this course for further credit.

ENSC 320 - Electric Circuits II (4)

Topics covered include: use of Laplace transform in circuit analysis, including poles and zeros, frequency response and impulse response: convolution as a method for computing circuit responses: resonant and bandpass circuits; magnetically coupled circuits; two port circuits; and filtering. Also includes a laboratory component dealing with the design and implementation of active filters. Prerequisite: (ENSC 220 or MSE 250), MATH 232, and MATH 310.

ENSC 324 - Electronic Devices (3)

The essential physics of silicon semiconductor devices that form the heart of integrated circuits today are covered. An introduction to semiconductor device physics upon which device models are based leading to the development of the drift-diffusion equations. The static and dynamic behavior of PN junction diodes, bipolar junction transistors, and field effect transistors will be covered along with the application of the developed device models to integrated circuit design. Prerequisite: (ENSC 220 or MSE 250), MATH 232, and MATH 310. Students with credit for ENSC 224 or PHYS 365 may not take ENSC 324 for further credit.

Section Instructor Day/Time Location
Marek Syrzycki
Sep 4 – Dec 3, 2018: Tue, 8:30–10:20 a.m.
Sep 4 – Dec 3, 2018: Thu, 8:30–10:20 a.m.
Burnaby
Burnaby
D101 Marek Syrzycki
TBD
LA01 Marek Syrzycki
TBD
ENSC 327 - Communication Systems (4)

This course represents and introduction to analog and digital communications systems. The main topics are: a review of Fourier Transform; the representation of bandpass signals; random signals in communications, including stationarity, ergodicity, correlation, power spectra and noise; amplitude and frequency modulation; circuits and techniques for modulation and demodulation; frequency division multiplexing; baseband digital communication; time division and multiplexing; an introduction to basic digital modulation schemes such as BPSK, FSK and QPSK. Laboratory work is included in this course. Prerequisite: (ENSC 380 or MSE 280) and ENSC 280. Students who completed STAT 270 prior to Spring 2015 may use STAT 270 instead of ENSC 280.

ENSC 350 - Digital Systems Design (4)

Presents advanced topics in digital design such as advanced state machine concepts, asynchronous design, hardware description languages, bus interfacing and DSP architecture. It also covers both the architecture and programming or field programmable logic devices. Some laboratory work is expected. Prerequisite: (ENSC 215 and either ENSC 250 or CMPT 250) or (ENSC 252 and ENSC 254).

ENSC 351 - Embedded and Real Time System Software (4)

Concentrates on the problems encountered when attempting to use computers in real time (RT) and embedded applications where the computer system must discern the state of the real world and react to it within stringent response time constraints. Both design methodology and practical implementation techniques for RT systems are presented. Although some hardware will be involved, it should be noted that this course concentrates on real time software. Prerequisite: (CMPT 128 and ENSC 215 and ENSC 250) or ENSC 254 or (CMPT 225 and (CMPT 250 or CMPT 295)) and a minimum of 60 credit hours/units. ENSC 351 is a required course for all Engineering Science Major and Honours students (no course substitutions are permitted). Students with credit for or who are concurrently enrolled in ENSC 451/MSE 450 cannot take this course for further credit.

Section Instructor Day/Time Location
Karol Swietlicki
Sep 4 – Dec 3, 2018: Mon, Wed, 2:30–4:20 p.m.
Burnaby
D101 Karol Swietlicki
TBD
LA01 Karol Swietlicki
Sep 4 – Dec 3, 2018: Tue, 4:30–8:20 p.m.
Burnaby
LA02 Karol Swietlicki
Sep 4 – Dec 3, 2018: Wed, 4:30–8:20 p.m.
Burnaby
LA03 Karol Swietlicki
Sep 4 – Dec 3, 2018: Thu, 4:30–8:20 p.m.
Burnaby
LA04 Karol Swietlicki
Sep 4 – Dec 3, 2018: Fri, 11:30 a.m.–3:20 p.m.
Burnaby
ENSC 380 - Linear Systems (3)

The objectives of this course are to cover the modelling and analysis of continuous and discrete signals using linear techniques. Topics covered include: a review of Laplace transforms; methods for the basic modelling of physical systems; discrete and continuous convolution; impulse and step response; transfer functions and filtering; the continuous Fourier transform and its relationship to the Laplace transform; frequency response and Bode plots; sampling; the Z-transform. Prerequisite: ENSC 180, ENSC 220 (or MSE 250) and MATH 310. Students with credit for MSE 280 may not take ENSC 380 for further credit.

Section Instructor Day/Time Location
Paul Ho
Sep 4 – Dec 3, 2018: Tue, Thu, 2:30–4:20 p.m.
Burnaby
D101 Paul Ho
TBD
ENSC 405W - Capstone A: Project Design, Management, and Documentation (3)

This is the first course in a group-based, two-course capstone sequence: ENSC 405W, ENSC 440. Topics include group writing processes, project documentation and engineering design, group dynamics, engineering standards, project management, dispute resolution, intellectual property, entrepreneurship, and user interface design. These groups will be maintained for the completion of the capstone project in ENSC 440. Engineering Science students cannot take MSE 410 or MSE 411 for credit. Students must take ENSC 440 in the term directly following successful completion of ENSC 405W. Grades awarded in ENSC 405W are conditional on the successful completion of ENSC 440 in the subsequent term. Prerequisite: (ENSC 105W or MSE 101W), ENSC 204, completion of a minimum of 22 units of upper division ENSC courses, and completion of (or concurrent enrollment in) two upper division technical electives meeting the requirements of the program. Students are required to complete all co-op requirements before enrolling in ENSC 440 Capstone B. Capstone B must be taken in the term immediately following Capstone A. Enrollment into Capstone A is by approval of the department via Capstone application form. Students who have taken (ENSC 304 and ENSC 305W) may not take ENSC 405W for credit. Writing.

ENSC 406 - Engineering Ethics, Law, and Professional Practice (2)

This course provides an introduction to the engineering profession, professional practice, engineering law and ethics, including the issues of worker and public safety. It also offers opportunities to explore the social implications and environmental impacts of technologies, including sustainability, and to consider engineers' responsibility to society. Prerequisite: 100 units including one of ENSC 100, ENSC 106, or CMPT 106, or MSE 102. Students with credit for MSE 402 may not take ENSC 406 for further credit.

ENSC 410 - The Business of Engineering (3)

This course covers the business, management and entrepreneurial concepts that are important to engineers who manage projects, run businesses, or need to decide on the most efficient method for accomplishing a task. The topics to be covered include: financial accounting, rates of return, taxes, cost-benefit analyses, marketing, financing methods, and business plans. Prerequisite: A minimum of 80 units is required to enroll in this course. Students with credit for ENSC 201, ENSC 411, or MSE 300 cannot complete this course for further credit.

or ENSC 411 - The Business of Entrepreneurial Engineering (4)

This course combines the engineering economics covered in ENSC 201 with a series of guest lectures on entrepreneurship and the writing of a business plan in collaboration with students from the Beedie School of Business. Prerequisite: Students must have completed 90 units and have a GPA above 3.0. Students with credit for ENSC 201, ENSC 410 or MSE 300 cannot complete this course for further credit.

ENSC 429 - Digital Signal Processing (4)

Discrete time signals and systems, sampling and quantization. The Discrete Fourier Transform and fast transforms. Digital filters, IIR and FIR, design procedures and implementations. Quantization noise in digital filters and transforms. Random signals, the response to linear systems to random signals. Introduction to adaptive systems. Introduction to system architectures for digital signal processing. Laboratory work includes familiarization with digital signal processing software packages. Prerequisite: (ENSC 327 or ENSC 328), (ENSC 380 or MSE 280), and a minimum of 80 units.

ENSC 440 - Capstone B: Engineering Design Project (3)

This is the second course in the group-based, two-course capstone sequence: ENSC 405W (Capstone A), and ENSC 440 (Capstone B). The capstone design course is based around a group project that consists of researching, designing, building and testing the hardware implementation of a working system. The course also includes material on how to design for safety and a shop training workshop. In order to obtain credit, students must successfully complete both courses. Students may not take Capstone B and Co-op in the same term. Prerequisite: ENSC 405W. Students will be automatically enrolled in ENSC 440 in the term immediately following successful completion of ENSC 405W. Students with credit for ENSC 440W, ENSC 442 or MSE 411 may not take this course for further credit.

Section Instructor Day/Time Location
Andrew Rawicz
Sep 4 – Dec 3, 2018: Fri, 2:30–4:20 p.m.
Burnaby
ENSC 450 - VLSI Systems Design (4)

An introduction to the design of Very Large Scale Integrated (VLSI) circuits and systems (System-on-Chip, SoC) using mainly CMOS technology. SoC design techniques and applications will be covered. Basic topics will include: CMOS technology and circuit layout rules; combinational and sequential logic; logic simulation; systems design; design for verification and testability; and embedded-processor design and application. An advanced digital design flow based on the VHDL hardware description language will be introduced and exercised in the labs. Prerequisite: (ENSC 225 or ENSC 226 or MSE 251) and ENSC 350, and a minimum of 80 units.

or ENSC 452 - Advanced Digital System Design (4)

Digital system design considerations including methodologies, specification, SoC partitioning, fault tolerance, design reuse, debugging and verification. Prerequisite: ENSC 350 and 351, a minimum of 80 units.

MACM 201 - Discrete Mathematics II (3)

A continuation of MACM 101. Topics covered include graph theory, trees, inclusion-exclusion, generating functions, recurrence relations, and optimization and matching. Prerequisite: MACM 101 or (ENSC 251 and one of MATH 232 or MATH 240). Quantitative.

Section Instructor Day/Time Location
Matthew DeVos
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 12:30–1:20 p.m.
Burnaby
OP01 TBD
MACM 316 - Numerical Analysis I (3)

A presentation of the problems commonly arising in numerical analysis and scientific computing and the basic methods for their solutions. Prerequisite: MATH 152 or 155 or 158, and MATH 232 or 240, and computing experience. Quantitative.

Section Instructor Day/Time Location
John Stockie
Sep 4 – Dec 3, 2018: Mon, 4:30–5:50 p.m.
Sep 4 – Dec 3, 2018: Wed, 4:30–5:50 p.m.
Burnaby
Burnaby
E101 Sep 4 – Dec 3, 2018: Tue, 9:30–10:20 a.m.
Burnaby
E102 Sep 4 – Dec 3, 2018: Tue, 10:30–11:20 a.m.
Burnaby
E103 Sep 4 – Dec 3, 2018: Tue, 11:30 a.m.–12:20 p.m.
Burnaby
E104 Sep 4 – Dec 3, 2018: Tue, 4:30–5:20 p.m.
Burnaby
E105 Sep 4 – Dec 3, 2018: Tue, 5:30–6:20 p.m.
Burnaby
E106 Sep 4 – Dec 3, 2018: Mon, 6:00–6:50 p.m.
Burnaby
MATH 151 - Calculus I (3) *

Designed for students specializing in mathematics, physics, chemistry, computing science and engineering. Logarithmic and exponential functions, trigonometric functions, inverse functions. Limits, continuity, and derivatives. Techniques of differentiation, including logarithmic and implicit differentiation. The Mean Value Theorem. Applications of differentiation including extrema, curve sketching, Newton's method. Introduction to modeling with differential equations. Polar coordinates, parametric curves. Prerequisite: Pre-Calculus 12 (or equivalent) with a grade of at least A, or MATH 100 with a grade of at least B, or achieving a satisfactory grade on the Ά‘ΟγΤ°AV Calculus Readiness Test. Students with credit for either MATH 150, 154 or 157 may not take MATH 151 for further credit. Quantitative.

Section Instructor Day/Time Location
Nils Bruin
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 8:30–9:20 a.m.
Burnaby
Zhaosong Lu
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 9:30–10:20 a.m.
Surrey
OPO1 TBD
OPO2 TBD
MATH 152 - Calculus II (3)

Riemann sum, Fundamental Theorem of Calculus, definite, indefinite and improper integrals, approximate integration, integration techniques, applications of integration. First-order separable differential equations and growth models. Sequences and series, series tests, power series, convergence and applications of power series. Prerequisite: MATH 150 or 151; or MATH 154 or 157 with a grade of at least B. Students with credit for MATH 155 or 158 may not take this course for further credit. Quantitative.

Section Instructor Day/Time Location
Ralf Wittenberg
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 8:30–9:20 a.m.
Burnaby
OP01 TBD
MATH 232 - Applied Linear Algebra (3)

Linear equations, matrices, determinants. Introduction to vector spaces and linear transformations and bases. Complex numbers. Eigenvalues and eigenvectors; diagonalization. Inner products and orthogonality; least squares problems. An emphasis on applications involving matrix and vector calculations. Prerequisite: MATH 150 or 151; or MACM 101; or MATH 154 or 157, both with a grade of at least B. Students with credit for MATH 240 make not take this course for further credit. Quantitative.

Section Instructor Day/Time Location
Adam Dyck
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 11:30 a.m.–12:20 p.m.
Burnaby
JF Williams
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 3:30–4:20 p.m.
Surrey
OP01 TBD
OP02 TBD
MATH 251 - Calculus III (3)

Rectangular, cylindrical and spherical coordinates. Vectors, lines, planes, cylinders, quadric surfaces. Vector functions, curves, motion in space. Differential and integral calculus of several variables. Vector fields, line integrals, fundamental theorem for line integrals, Green's theorem. Prerequisite: MATH 152; or MATH 155 or MATH 158 with a grade of at least B. Recommended: It is recommended that MATH 240 or 232 be taken before or concurrently with MATH 251. Quantitative.

Section Instructor Day/Time Location
David Muraki
Sep 4 – Dec 3, 2018: Mon, Wed, 8:30–9:20 a.m.
Sep 4 – Dec 3, 2018: Fri, 8:30–9:20 a.m.
Burnaby
Burnaby
Sepehr Foroushani
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 8:30–9:20 a.m.
Surrey
Jamie Mulholland
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 8:30–9:20 a.m.
Burnaby
OP01 TBD
OP02 TBD
MATH 310 - Introduction to Ordinary Differential Equations (3)

First-order differential equations, second- and higher-order linear equations, series solutions, introduction to Laplace transform, systems and numerical methods, applications in the physical, biological and social sciences. Prerequisite: MATH 152; or MATH 155/158 with a grade of at least B, MATH 232 or 240. Quantitative.

Section Instructor Day/Time Location
Vijaykumar Singh
Sep 4 – Dec 3, 2018: Mon, Fri, 12:30–1:20 p.m.
Sep 4 – Dec 3, 2018: Wed, 12:30–1:20 p.m.
Burnaby
Burnaby
D101 Sep 4 – Dec 3, 2018: Wed, 2:30–3:20 p.m.
Burnaby
D102 Sep 4 – Dec 3, 2018: Wed, 3:30–4:20 p.m.
Burnaby
D103 Sep 4 – Dec 3, 2018: Wed, 4:30–5:20 p.m.
Burnaby
D104 Sep 4 – Dec 3, 2018: Thu, 9:30–10:20 a.m.
Burnaby
D105 Sep 4 – Dec 3, 2018: Thu, 10:30–11:20 a.m.
Burnaby
D106 Sep 4 – Dec 3, 2018: Thu, 11:30 a.m.–12:20 p.m.
Burnaby
Veselin Jungic
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 12:30–1:20 p.m.
Surrey
D201 Sep 4 – Dec 3, 2018: Wed, 2:30–3:20 p.m.
Surrey
D202 Sep 4 – Dec 3, 2018: Wed, 3:30–4:20 p.m.
Surrey
PHYS 120 - Mechanics and Modern Physics (3)

A general calculus-based introduction to mechanics. Topics include translational and rotational motion, momentum, energy, gravitation, and selected topics in modern physics. Prerequisite: BC Principles of Physics 12 or PHYS 100 or equivalent, with a minimum grade of C-. This prerequisite may be waived, at the discretion of the department, as determined by the student's performance on a regularly scheduled PHYS 100 final exam. Please consult the physics advisor for further details. Corequisite: MATH 150 or 151 or 154 must precede or be taken concurrently. Students with credit for PHYS 101, 125 or 140 may not take this course for further credit. Quantitative/Breadth-Science.

Section Instructor Day/Time Location
Daria Ahrensmeier
Sep 4 – Dec 3, 2018: Mon, Wed, Fri, 9:30–10:20 a.m.
Burnaby
D101 Sep 4 – Dec 3, 2018: Tue, 9:30–10:20 a.m.
Burnaby
D102 Sep 4 – Dec 3, 2018: Tue, 10:30–11:20 a.m.
Burnaby
D103 Sep 4 – Dec 3, 2018: Tue, 11:30 a.m.–12:20 p.m.
Burnaby
D104 Sep 4 – Dec 3, 2018: Tue, 12:30–1:20 p.m.
Burnaby
D105 Sep 4 – Dec 3, 2018: Tue, 1:30–2:20 p.m.
Burnaby
D106 Sep 4 – Dec 3, 2018: Tue, 2:30–3:20 p.m.
Burnaby
D107 Sep 4 – Dec 3, 2018: Tue, 3:30–4:20 p.m.
Burnaby
D108 Sep 4 – Dec 3, 2018: Tue, 4:30–5:20 p.m.
Burnaby
D109 Sep 4 – Dec 3, 2018: Wed, 10:30–11:20 a.m.
Burnaby
D110 Sep 4 – Dec 3, 2018: Wed, 11:30 a.m.–12:20 p.m.
Burnaby
D111 Sep 4 – Dec 3, 2018: Wed, 12:30–1:20 p.m.
Burnaby
D112 Sep 4 – Dec 3, 2018: Wed, 1:30–2:20 p.m.
Burnaby
D113 Sep 4 – Dec 3, 2018: Wed, 2:30–3:20 p.m.
Burnaby
D114 Sep 4 – Dec 3, 2018: Wed, 3:30–4:20 p.m.
Burnaby
D115 Sep 4 – Dec 3, 2018: Wed, 4:30–5:20 p.m.
Burnaby
D116 Sep 4 – Dec 3, 2018: Thu, 9:30–10:20 a.m.
Burnaby
D117 Sep 4 – Dec 3, 2018: Thu, 10:30–11:20 a.m.
Burnaby
D118 Sep 4 – Dec 3, 2018: Thu, 11:30 a.m.–12:20 p.m.
Burnaby
D119 Sep 4 – Dec 3, 2018: Thu, 12:30–1:20 p.m.
Burnaby
PHYS 121 - Optics, Electricity and Magnetism (3)

A general calculus-based introduction to electricity, magnetism and optics. Topics include electricity, magnetism, simple circuits, optics and topics from applied physics. Prerequisite: PHYS 120 or 125 or 140 (or PHYS 101 with a grade of A or B). Corequisite: MATH 152 or 155 must precede or be taken concurrently. Students with credit for PHYS 102, 126 or 141 may not take this course for further credit. Quantitative/Breadth-Science.

* or MATH 150 Calculus I with Review if you do not meet the MATH 151 prerequisites

Complementary Studies Elective Courses

For students in the Computer Engineering option, the university has agreed to reduce the total credits required in B-Soc and B-Hum courses to 9 (or 3 courses), with at least one course (3 credits) in each category. Since ECON 103-4 is a B-Soc course, for these students at least one complementary elective should be from the B-Hum category and at least one should be from the Central Issue, Methodology, and Thought Process category as required by CEAB. Please note that the same course can satisfy both of these requirements and the other complementary elective course can be any other course from either of the two categories listed below. A list of complementary studies electives can be found at . Other courses may be acceptable with undergraduate curriculum committee chair approval.

Engineering Science & Design Elective Courses

Engineering Science and Design (ESD) Electives may be offered by departments other than the School of Engineering Science, but they must satisfy the Canadian Engineering Accreditation Board (CEAB) engineering science and engineering design requirements. Generally, Engineering Science has roots in mathematics and basic sciences, but carries knowledge further toward creative applications that could include simulation, experimental procedures, modelling and the development of mathematical or numerical techniques. Application to the identification and solution of practical engineering problems is stressed.

Engineering Design requires students to demonstrate an ability to design solutions for complex, open-ended engineering problems and to design systems, components or processes that meet specified needs with appropriate attention to health and safety risks, applicable standards, and economic, environmental, cultural and societal considerations.

Each option has a pre-approved list of electives that may include one or more pre-approved ESD electives. Note that these courses may have prerequisites not required for your option; these prerequisites would still need to be taken in order to enrol in the elective. Students interested in taking an ESD elective course that does not appear on this list should contact the Chair of their option/Undergraduate Curriculum Committee and obtain his/her approval in writing before proceeding with the course.

Students in the Computer Engineering Option must complete a minimum of 12 units from the engineering science & design elective course list at . As part of the required 12 units, students must complete one course set from the constrained elective list. Students may take a maximum of two 300-level ESD electives.  

NOTE: Ά‘ΟγΤ°AV students enrolled in the Accelerated Master's program within the School of Engineering Science may apply a maximum of 10 graduate course units, taken while completing the bachelor's degree, towards the upper division undergraduate electives of the bachelor's program and the requirements of the master's degree. For more information, please contact the Engineering Science Graduate Program Committee Chair.

Science Elective Courses

Students must also complete one science elective course selected from a pre-approved science electives list that is available at .

Writing, Quantitative, and Breadth Requirements

Students admitted to Ά‘ΟγΤ°AV beginning in the fall 2006 term must meet writing, quantitative and breadth requirements as part of any degree program they may undertake. See Writing, Quantitative, and Breadth Requirements for university-wide information.

WQB Graduation Requirements

A grade of C- or better is required to earn W, Q or B credit

Requirement

Units

Notes
W - Writing

6

Must include at least one upper division course, taken at Ά‘ΟγΤ°AV within the student’s major subject
Q - Quantitative

6

Q courses may be lower or upper division
B - Breadth

18

Designated Breadth Must be outside the student’s major subject, and may be lower or upper division
6 units Social Sciences: B-Soc
6 units Humanities: B-Hum
6 units Sciences: B-Sci

6

Additional Breadth 6 units outside the student’s major subject (may or may not be B-designated courses, and will likely help fulfil individual degree program requirements)

Students choosing to complete a joint major, joint honours, double major, two extended minors, an extended minor and a minor, or two minors may satisfy the breadth requirements (designated or not designated) with courses completed in either one or both program areas.

 

WQB Requirement Modifications for Engineering Science Students

For engineering science students, these university requirements are modified as follows.

  • for students in the computer engineering option, the total number of Breadth-Social Sciences (B-Soc) and Breadth-Humanities (B-Hum) courses is reduced to three courses, with at least one course in each category

In addition, the Canadian Engineering Accreditation Board (CEAB) requires that one complementary studies elective in the ENSC curriculum must be in the Central Issue, Methodology, and Thought Process category.

Residency Requirements and Transfer Credit

  • At least half of the program's total units must be earned through Ά‘ΟγΤ°AV study.
  • At least two thirds of the program's total upper division units must be earned through Ά‘ΟγΤ°AV study.

Please see Faculty of Applied Sciences Residency Requirements for further information.

Elective Courses

In addition to the courses listed above, students should consult an academic advisor to plan the remaining required elective courses.