Engineering
ENGG1001 | Engineering Practice Lecture Series | 0 ch (1C) |
---|---|---|
A guest lecture series intended to introduce students to the engineering profession. Speakers from various engineering disciplines and job functions share their career experiences and discuss exciting engineering projects underway in the region. |
ENGG1003 | Engineering Technical Communications | 4 ch (2C, 3L) [W] |
---|---|---|
Oral, written and visual communication skills are developed as important tools used by engineers. Technical writing style is taught through the preparation of reports and summaries, and oral communication skills are improved through public speaking and the preparation of formal presentations. Computer-aided design is introduced and used to enhance visualization skills. The importance of information literacy is stressed. Various types of engineering drawings are presented and engineering unit conversions are practiced. |
ENGG1015 | Introduction to Engineering Design and Problem Solving | 2 ch (1C, 2L) |
---|---|---|
This course introduces engineering design methodology and develops basic problem solving techniques. Under the supervision of senior students and with the guidance of industry engineers, students work both individually and in teams on real engineering design projects for the local community in a simulated engineering consulting environment. Project planning, team- building, leadership and responsible care are discussed. Laboratories are used to demonstrate problem solving techniques for analytical and open-ended problems, and life-long learning is emphasized by having students integrate co-requisite and researched material into a structured design process. Restricted to students with fewer than 60 ch of program credit upon first admission to the Faculty of Engineering or with permission of the instructor. |
ENGG1082 | Mechanics for Engineers | 4 ch (3C 1T 2L) |
---|---|---|
Introduction to the fundamental concepts of vector analysis, and its application to the analysis of particles and rigid bodies. The static analysis of particles and rigid bodies, including practical applications such as the analysis of trusses, frames and machines. The static analysis of structural systems including the analysis of internal forces and bending moments in beams. The analysis of kinematics of particle motion along straight and curved paths. The analysis of kinetic motion for particles based on force and acceleration, and work and energy. The course topics focus on visualizing concepts in mechanics, and developing problem solving strategies. Prerequisite: PHYS 1081 , MATH 1003 and MATH 1503 (or MATH 2213 or equivalent). |
ENGG4000 | Senior Design Project | 8 ch (1C 2T 4L) [W] |
---|---|---|
ENGG4013 | Law and Ethics for Engineers | 3 ch (3C) |
---|---|---|
General introduction to the legal and ethical aspects of engineering practice. Social responsibilities of engineers, the engineering act and code of ethics, occupational health and safety, sustainable development, environmental stewardship, employment equity, legal duties and liabilities of the professional engineer, contracts, the tort of negligence, labour law, intellectual and industrial property, conflict resolution. Restricted to students with at least 100 ch in the engineering program. Limited enrolment; priority given to students in their final year of engineering. |
ENGG4025 | Multidisciplinary Design Project | 8 ch (2C 2T 4L) [W] |
---|---|---|
Full-year design course (fall and winter of same academic year) which may be taken in place of the final year design course in any engineering program. Working in multidisciplinary teams of 4 or 5 students, students will work on a design project sponsored by an outside client. The proposed solution should meet a broad range of constraints including health and safety, sustainable development and environmental stewardship. Deliverables include progress reports and presentations, a final report including engineering drawings, and if applicable, a prototype. Weekly lectures will cover topics relevant to the design projects and will include presentations by guest speakers. The weekly tutorial hours are designated for scheduled meetings with project co-mentors . Prerequisites: Restricted to students who have met the requirements of the capstone design course in their program and have received approval from their degree program coordinator. |