All Engineering courses are available only to students registered in the Faculty of Engineering unless indicated otherwise.
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Civil and Environmental Engineering
2202A/B -
Mechanics of Materials
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Concept of stress and strain; axially loaded members; second moment of area; elastic torsion of circular shafts; bending and shearing stresses in beams; transformation of stress and strain; stresses in thin-walled pressure vessels; design of beams and introduction to beam deflection.
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Civil and Environmental Engineering
2217A/B -
Introduction to Environmental Engineering
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A course introducing the application of chemistry and engineering principles to an understanding of environmental issues associated with human activity. Topics include mass and energy transfer, environmental chemistry, water and air pollution, pollutant transport modeling, pollution management, and risk assessment.
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Civil and Environmental Engineering
2219A/B -
Computational Tools for Civil Engineers
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A first course in numerical methods for civil and environmental engineers, emphasizing problem formulation, solution algorithm design and programming application. Methods for solving nonlinear algebraic equations, ordinary differential equations, and differential-algebraic systems. Introduction to the systems approach, and system analysis terminology, for application to engineering planning, design and operations.
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Civil and Environmental Engineering
2220A/B -
Introduction to Structural Engineering
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A first course in Structural Theory and Design, including a consolidation of material concerning static equilibrium. Free body diagrams; behaviour, analysis and design of trusses and statically determinate steel and wooden beams; Euler buckling; force effect envelopes; snow and static wind loads.
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Civil and Environmental Engineering
2221A/B -
Structural Theory and Design
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A consolidation of the analysis and design of statically determinate structures, and an introduction to the analysis of indeterminate structures. Analysis and design of statically determinate beams and frames; bending of unsymmetric sections; virtual work and energy methods, introduction to indeterminate structural analysis.
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Civil and Environmental Engineering
2224 -
Engineering Fluid Mechanics
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Basic concepts of fluid mechanics: fluid statics; continuity, momentum and energy equations; vortex flow; flow of real fluids and boundary layers; dimensional analysis. These principles are applied to pipe and open channel flows: steady pipe flows, uniform and gradually-varied flow in open channels; sluice gates, weirs and hydraulic jumps, unsteady flows.
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Civil and Environmental Engineering
3321A/B -
Soil Mechanics and Hydrogeologic Engineering
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Soil classification, clay mineralogy, effective stress principle, site investigation practice, soil compaction, and one and two dimensional steady state flow in natural and engineered systems.
Antirequisite(s):
the former CEE 3326.
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Civil and Environmental Engineering
3322A/B -
Introduction to Geotechnical Engineering
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One dimensional settlement and consolidation theories for clayey soils, shear strength models, and assessment of slope stability.
Antirequisite(s):
the former CEE 3326.
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Civil and Environmental Engineering
3324A/B -
Surveying
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The fundamental theory and procedures of plane surveying with application to engineering construction. This course runs in the summer for a period of 15 days (usually three weeks preceding the start of term). Limited enrolment. Preference will be given to students who have completed term 4 of the Civil Engineering program. (26 lecture hours, 52 field work/laboratory hours).
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Enrolled in Civil Engineering
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Civil and Environmental Engineering
3327A/B -
International Development for Engineers
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The course will assist students to achieve a broad understanding of international development to enable the effective use of engineering in developing countries. The course covers what works and does not work in international development, the results targeted in development work, and effective approaches and methodologies to achieve those ends.
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Admission to the Environmental Engineering with International Development Option or the Structural Engineering with International Development Option.
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Civil and Environmental Engineering
3328A/B -
Appropriate Technologies for International Development
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The course will introduce the concept of appropriate technology in the context of international development to students. It will examine the application of technologies to critical human needs in development, such as housing, transportation, provision of safe water and sanitation, waste management, and as energy.
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Admission to the Environmental Engineering with International Development Option or the Structural Engineering with International Development Option.
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Civil and Environmental Engineering
3340A/B -
Analysis of Indeterminate Structures
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A continuation of CEE 2221A/B. Methods of analysis of structures having a high degree of statistical indeterminacy such as frames, continuous beams and arches. Matrix formulation of the displacement methods and computer oriented analysis. Influence lines for indeterminate structures.
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Civil and Environmental Engineering
3343A/B -
Finite Element Methods and Application to Lateral Analysis of Buildings
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Introduces the basis of the finite method and its application in solving problems in solid mechanics. Application of the finite element method in the modelling and analysis of buildings as well as coverage of approximate methods for estimating the response of buildings to lateral loads are introduced in the course.
Antirequisite(s):
the former CEE 3341A/B, the former CEE 3384A/B.
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Civil and Environmental Engineering
3344A/B -
Structural Dynamics I
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Students are introduced to concepts of structural dynamics and the response of civil engineering structures to time-varying loads, including those due to wind and earthquakes. Topics include: the effects of the mass and damping; random dynamic loads; the design of dynamically sensitive structures that can be approximated as a (generalized) single-degree-of-freedom system.
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Civil and Environmental Engineering
3346A/B -
Steel Design
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Behaviour and Limit States Design of tension members, columns, beams, beam-columns, and connections. P-delta analyses for unbraced frames. Building systems. Current professional issues in steel construction. Health and safety issues are discussed.
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Civil and Environmental Engineering
3347A/B -
Reinforced Concrete Design
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Introduction to reinforced concrete design including serviceability and ultimate limit states; analysis and design of reinforced concrete beams and one-way slabs for flexure and shear; bar cutoffs in flexural members; deflections; short columns.
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Civil and Environmental Engineering
3348A/B -
Project Management and Engineering Cases
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Students develop decision making skills based upon case histories including those involving project management and sustainable development.
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Completion of second year of the Civil Engineering program or third year of the Integrated Engineering program.
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Civil and Environmental Engineering
3355A/B -
Municipal Engineering Design
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Application of hydraulics and hydrology in design of water-related municipal systems. Topics include municipal water requirements and waste volumes; surface and ground water supplies; water treatment, transportation and distribution; sewerage, drainage and flood control.
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Civil and Environmental Engineering
3358A/B -
Reinforced and Prestressed Concrete Design
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Behaviour and design of Reinforced Concrete (RC) and Prestressed Concrete (PC) elements: RC two-way slabs, RC slender columns in non-sway frames, RC bearing walls, RC basement walls, RC shear walls, RC footings, RC pile caps, PC one-way slabs and PC beams.
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Civil and Environmental Engineering
3361A/B -
Water Resources Management
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Introduction to water resources management for engineers. Water resources management principles and tools; regulatory issues; economic analysis; water supply; water demand; sustainable development; climate change; extremes (floods and droughts); water management in the Upper Thames River basin. Exposure to and use of computer-based tools in solving water resources management problems.
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Civil and Environmental Engineering
3362A/B -
Drinking Water Quality and Treatment
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In the course students will be taught the basic principles of water quality and treatment with particular focus on developing communities. Specific topics will include drinking water quality guidelines and legislation, identifying drinking water sources with adequate quality and quantity, drinking water treatment technologies and water distribution systems in developing communities.
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Completion of the second year of the Engineering program.
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Civil and Environmental Engineering
3369A/B -
Materials for Civil Engineering
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The consideration of the physical properties and engineering characteristics of materials used in Civil Engineering.
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Completion of second year of the Civil Engineering program.
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Civil and Environmental Engineering
3386A/B -
Numerical Modeling for Environmental Engineers
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Principles of model development and solution for environmental systems including river and lake water quality, groundwater flow and contamination, and atmospheric pollution. Application of these principles using a range of numerical techniques, including current commercial software packages, through all stages of the modeling process from conceptualization to calibration and validation.
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Civil and Environmental Engineering
4404A/B -
Advanced Topics in International Development for Engineers
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This course will help students to achieve a deeper and broader understanding of the role of engineering in international development. This course makes extensive use of the case method and the decision makers in some of the cases will attend. A range of advanced topics will be covered.
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Civil and Environmental Engineering
4405A/B -
Air Pollution
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The nature and effects of air pollution including the structure and physical behavior of the atmosphere, types and origins of air pollutants, chemical reactions in the atmosphere, atmospheric dispersion, techniques of pollutant evaluation and surveys and effects of air pollution on health and other aspects of urban and natural environments.
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Completion of second year of the Engineering or Science program.
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Civil and Environmental Engineering
4418A/B -
Systems Approach for Civil and Environmental Engineering
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Use of systems approach in civil and environmental engineering planning, design and management. Course topics include: systems thinking; simulation; optimization; and multi-objective analysis. Exposure to and use of computer-based simulation and optimization tools in solving civil and environmental engineering problems.
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The former CEE 2218A/B.
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Civil and Environmental Engineering
4426A/B -
Geotechnical Engineering Design
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Application of shear strength, effective stress, and earth pressure theories to the design of shallow and deep foundations, braced cuts, and retaining structures and related safety issues.
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Civil and Environmental Engineering
4427A/B -
Special Topics in International Development
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The course deals with topics of current interest in Civil Engineering applications to International Development. Topics and course outline will be available at the time of registration
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Completion of third year of Civil Engineering Option F.
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Civil and Environmental Engineering
4428A/B -
Selected Topics in Civil Engineering I
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The course deals with topics of current interest in Civil Engineering. Topics and course outline will be available at the time of registration.
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Completion of third year of the Civil Engineering program.
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Civil and Environmental Engineering
4429A/B -
Selected Topics in Civil Engineering II
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This course deals with topics of current interest in Civil and Environmental Engineering. Topics and course outline will be available at the time of registration.
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Completion of third year of the Civil Engineering program.
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Civil and Environmental Engineering
4440 -
Civil Engineering Thesis
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Selection and investigation of an engineering problem. Analytical and/or experimental work is carried out by individual students, supervised by a faculty member. Progress reports and a final engineering report are prepared; each student must deliver a public lecture. Students considering future graduate studies are strongly encouraged to take this course.
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Completion of third year of the Civil Engineering program with a minimum Year Weighted Average of 75%.
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Civil and Environmental Engineering
4441 -
Civil Engineering Design Project
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Students undertake a comprehensive engineering design project which involves the creative, interactive process of designing a structure/system to meet a specific need subject to economic, health, safety, and environmental constraints. Each group of students is required to write an engineering report and deliver a public lecture.
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Completion of third year of the Civil Engineering program.
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Civil and Environmental Engineering
4458A/B -
Risk Analysis and Decision Making in Engineering
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Engineering systems are analyzed using probability theory and statistics to evaluate system performance under uncertainty. Risk based methods are used to make decisions under uncertainty.
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Civil and Environmental Engineering
4465A/B -
Environmental Design for Waste Disposal
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Consideration of properties of solid waste, landfill covers, landfill gas, leachate, techniques for disposal, regulations, liner technology, contaminant transport, and impact assessment are examined in the context of the design of solid waste disposal facilities.
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Completion of third year of either a BESc or BSc program.
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Civil and Environmental Engineering
4476A/B -
Environmental Hydraulics Design
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The application of hydraulic engineering principles in the analysis of environmental flows. Topics include: open channel transitions, flow measuring devices, stabilization of a natural river, flood control channels, spillways and stilling basins, culverts, and sediment transport in alluvial channels.
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Civil and Environmental Engineering
4477A/B -
Environmental Applications of Nanotechnology
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This course describes the technology, challenges, and applications of nanoscale devices for environmental technology and engineering. The first part of the course will explore the underlying science behind nanotechnology and the tools used to create and characterize nanostructures; the second part will deal with the current and potential applications of such devices in environmental science and engineering. Material will be presented on a level intended for upper-level engineering students.
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Completion of the second year of the Engineering program.
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Civil and Environmental Engineering
4478A/B -
Case Studies in Civil Engineering
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Students will examine a number of "cases" in which some critical engineering decisions must be made. These decisions may be influenced by technical, social, economic, political, legal, ethical, health and safety or regulatory considerations.
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Completion of third year of the Civil Engineering program.
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Civil and Environmental Engineering
4479A/B -
Subsurface Contamination by Hazardous Industrial Chemicals
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This course deals with soil and groundwater contamination by organic industrial liquids. Multiphase flow through porous media will be covered, linking key physics and chemistry to contaminant behavior in the field. Relevant analytical and numerical models are employed. Practical aspects covered include site investigation techniques and innovative clean-up technologies.
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CEE 3386A/B or permission of the instructor.
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Civil and Environmental Engineering
4480A/B -
Wind Engineering; Modelling Assessment and Mitigation
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An introduction to wind effects on structures. Topics covered include wind climate, the atmospheric boundary layer and its description, bluff body aerodynamics and aeroelastic effects, quasi-static and dynamic approaches to wind loads on structures, internal pressures, and code approaches to wind loads on structures.
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Completion of the third year of the Civil Engineering program.
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Civil and Environmental Engineering
4490 -
Dynamics of Structures
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Students are introduced to concepts of structural dynamics and the response of civil engineering structures to time-varying loads, including those due to wind and earthquakes. Topics include: the effects of the mass and damping; random dynamic loads; the design of dynamically sensitive buildings, towers, chimneys and long span bridges.
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CEE 3340A/B, CEE 3341A/B, CEE 3342A/B.
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Civil and Environmental Engineering
4491A/B -
Structural Dynamics II
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Students are introduced to the analysis of multi-degree-of-freedom system under dynamic loading, including those due to wind and earthquakes. Topics include: the effects of the mass and damping; random dynamic loads; the design of dynamically sensitive structured, and fatigue.
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