Engineering
Engineering 1010
Engineering Statics is the first course in engineering mechanics. Forces and moments are described with vector algebra, leading to a description of the equilibrium conditions for particles and solid bodies. The importance of free body diagrams is highlighted. This knowledge is then applied to the analysis of trusses, frames and machines. Additional topics include an examination of friction and the concepts of centre of force, centroids and second moments of area.
Lectures: Three hours per week
Tutorials: One hour per week
Prerequisite: Level III Physics or Physics 1020 and Mathematics 1000 (which may be taken concurrently)
Engineering 1020
Introduction to Programming is an introduction to algorithmic problem solving techniques and computer programming, including basic program control structures (sequence, call, branch, loop) and data representations, functional decomposition and design by contract. Exercises and examples are drawn from a variety of engineering disciplines and are implemented using a standard modern programming language.
Lectures: Three hours per week
Laboratory/Tutorial: At least eight two hour sessions
Prerequisite: Level III Advanced Mathematics or Mathematics 1090
Engineering 1030
Engineering Graphics and Design provides two complementary competencies. First, it provides an introduction to the fundamentals of graphic communication, including orthographic projections, three dimensional pictorials, sectioning and dimensioning. Both sketching and CAD are utilized. Second, the course introduces students to standard design methodologies. The graphics and design competencies are reinforced through lab and project exercises.
Lectures: Three hours per week
Laboratory/Tutorial: Two hours per week
Prerequisite: Level III Advanced Mathematics or Mathematics 1090
Engineering 1040
Mechanisms and Electric Circuits is offered in two serial modules, including laboratory and workshop practice and a team project to expose students to the concept of system integration involving electrical and mechanical systems. The electrical module provides an introduction to DC circuits, with an analysis of DC circuits used in control, measurement and instrumentation systems. The mechanism module provides an introduction to machine components such as belts, pulleys, gears and simple linkages. The laboratory and workshop component introduces students to hands-on practice in basic laboratory instruments, tools and safety procedures. A team project involves the construction, assembly and testing of a simple mechanism.
Lectures: Three hours per week
Laboratory/Tutorial: Three hours per week/one hour per week
Prerequisite: Grade 12 Physics or Physics 1051 (which may be taken concurrently) and Mathematics 1000 (which may be taken concurrently)
Note: The Engineering course pairs 1010/1020 and 1030/1040 are offered in single slots so that students can only take one from each pair in the fall and winter semesters.
