Introduction to technical drawing in compliance with Canadian and international standards: orthographic and auxiliary views, sections, dimensioning...
Introductory concepts and definitions: Thermo-dynamic systems, fluid properties. Energy, work, heat. First law. Cycles. Properties of a pure, simple...
Particles in motion. Rigid bodies in motion. Work and Energy. Impulse and Momentum. Methods. Applications: clutch and brake systems. Vibrating...
An overview of manufacturing processes and methods with emphasis on understanding of the physical fundamentals of processes. The course will cover...
Statics will cover rigid body equilibrium, including: two and three-force members, trusses, frames and machines. Mechanics of materials will cover...
The role of design in engineering; design process; conceptual design and evaluation; human factors in design; systems thinking; design for product...
Dynamics of complex, multi-component systems; gears, simple, compound and epicyclic gear trains; power screws and belt drives; flywheels and...
Stresses and deflections; statically indeterminate problems. Stress transformation; principal stresses; Mohr's Circle; theories of failure. Flexural...
Computer Aided Manufacturing (CAM) and the fabrication of materials by various shaping processes. Fundamentals of CNC programming, from manual coding...
The scope and limitations of thermodynamics, macroscopic-approach heat, work, energy and first law. Properties and state of simple substances and...
Rankine cycle, steam turbine cycles, reheat and regenerative feed-water heating. Gas turbine cycles, regenerators. Combustion, stoichiometric, lean...
Dimensions and units, continuum fluid mechanics. Properties of fluids. Fluid statics, the standard atmosphere. Manometry and pressure measurement....
Fluid Mechanics. Fluid Properties. Fluid Statics. Manometry. Forces on submerged planes. Fluid motion: velocity, acceleration. Continuity, energy and...
Stress Analysis. The stiffness method. Thick shell cylinders, interference fits; rotating discs and cylinders. Discussion of the moment-area method...
Review of stress analysis procedures; combined stresses; simple Design Factor approach; Variable loads and stresses with stress concentrations; bolts,...
Laminar and turbulent pipe flow. Friction and minor losses. Non-circular conduits. Pipes in series and in parallel. Relaxation techniques and...
This course introduces the fundamental elements of industrial automation control logic systems using fluid power and microprocessor based circuits,...
Fundamentals of finite elements method will be explained. Direct stiffness method. Application of finite elements to stress, heat transfer and fluid...
A fundamental course in heat transfer including conduction, convection and radiation. Analytical, graphical and numerical solutions for conduction in...
Mathematical model representation of physical control systems which involve mechanical, hydraulic, pneumatic and electrical components. Open and...
