## Summary

- Degree offered: Master of Engineering (MEng)
- Registration status options: Full-time; Part-time
- Language of instruction: English
- Program options (expected duration of the program):
- with coursework and project (3 full-time terms; 12 consecutive months)
- with coursework (3 full-time terms; 12 consecutive months)

- Academic units: Faculty of Engineering, Department of Mechanical Engineering, Ottawa-Carleton Institute for Mechanical and Aerospace Engineering

## Program Description

**Ottawa-Carleton Joint Program**

Established in 1983, the Ottawa-Carleton Institute for Mechanical and Aerospace Engineering (OCIMAE) combines the research strengths of the Department of Mechanical Engineering at the University of Ottawa and the Department of Mechanical and Aerospace Engineering at Carleton University.

## Main Areas of Research

- Thermal and fluid engineering
- Solid mechanics and design
- Materials and manufacturing
- Controls and robotics
- Biomedical engineering
- Aeronautical and space engineering

## Other Programs Offered Within the Same Discipline or in a Related Area

- Master of Applied Science Mechanical Engineering (MASc)
- Master of Applied Science Advanced Materials and Manufacturing (MASc)
- Master of Engineering in Advanced Materials and Manufacturing (MEng)
- Doctorate in Philosophy Mechanical Engineering (PhD)
- Doctorate in Philosophy in Advanced Materials and Manufacturing (PhD)

## Fees and Funding

- Program fees

The estimated amount for university fees associated with this program are available under the section Finance your studies.

International students enrolled in a French-language program of study may be eligible for a differential tuition fee exemption.

- To learn about possibilities for financing your graduate studies, consult the Awards and financial support section.

## Notes

- Programs are governed by the general regulations in effect for graduate studies and by the general regulations of the Ottawa-Carleton Institute for Mechanical and Aerospace Engineering (OCIMAE).
- In accordance with the University of Ottawa regulation, students have the right to complete their assignments, examinations, research papers, and theses in French or in English.

## Program Contact Information

# Graduate Studies Office, Faculty of Engineering

# 161 Louis-Pasteur, Colonel By Hall, Room B111

# Ottawa, Ontario, Canada

# K1N 6N5

# Tel.: 613-562-5800 x 6189

# Email: engineering.grad@uottawa.ca

# Twitter|Faculty of Engineering

# Facebook|Faculty of Engineering

For the most accurate and up to date information on application deadlines, language tests and other admission requirements, please visit the specific requirements webpage.

## To be eligible, candidates must:

- Hold a bachelor’s degree with a specialization, or a major in mechanical engineering (or equivalent) with a minimum average of 70% (B).

Note: International candidates must check the admission equivalencies for the diploma they received in their country of origin.

- Demonstrate a good academic performance in previous studies as shown by official transcripts, research reports, abstracts or any other documents demonstrating research skills.
- Pay the $100 ($CDN non-refundable) application fee.

## Language Requirements

Applicants must be able to understand and fluently speak the language of instruction (English) in the program to which they are applying. Proof of linguistic proficiency may be required.

Applicants whose first language is neither French nor English must provide proof of proficiency in the language of instruction.

__Language tests recognized by the University of Ottawa:__

- TOEFL: 550 (Paper-based) or 79-80 (Internet-based); or
- IELTS: Overall 6.5 – Individual 5.0 (Paper-based or internet-based); or
- An equivalent language test.

Note: Candidates are responsible for any fees associated with the language tests.

## Notes

- The admission requirements listed above are minimum requirements and do not guarantee admission to the program.
- Admissions are governed by the general regulations in effect for graduate studies and by the general regulations of the Ottawa-Carleton Institute for Mechanical and Aerospace Engineering (OCIMAE).

## Documents Required for Admission

In addition to the documents required for graduate and postdoctoral studies, candidates must submit the following documents:

- A resume
- A letter of intent or motivation

Letter outlining your professional goals and proposed research area.

- Two confidential letters of recommendation from professors who have known the applicant and are familiar with the student work.

You are strongly encouraged to contact your referee(s) prior to submitting your application in order to confirm their email address and their availability to complete your letter of recommendation.

- Transcripts from all universities attended:
- Official transcripts from all universities attended must be submitted.

This applies to all courses and programs at any university you attended, including regular programs (completed or not), exchanges, letters of permission, online or correspondence courses, courses taken as a special student or visiting student, etc. - If the transcript and degree certificate are not in English or French, a certified translation (signed and stamped/sealed) must be submitted.

- Official transcripts from all universities attended must be submitted.
- A preference form

Note: Documents that are not required for admission will not be consulted, conserved or returned to the student. These documents will be destroyed according to our administrative procedures.

**Information about how to apply to this program is available under the ****Apply Now**** section.**

Students should complete and submit their online application with supporting documentation (if applicable) by the deadline indicated above.

## Master’s with Coursework and Project

Students must meet the following requirements:^{1}

Code | Title | Units |
---|---|---|

Compulsory Courses: | ||

24 course units in mechanical engineering (MCG) at the graduate level approved by the Department | 24 Units | |

Seminar: | ||

MCG 5947 | Master of Engineering Seminar | 0 Unit |

Project: | ||

MCG 6998 | Project | 6 Units |

Note(s)

^{1} | In accordance with regulation B.2.7, all students are expected to complete the major part of their program requirements while enrolled in the program at the University of Ottawa. |

## Master’s with Coursework

Students must meet the following requirements:^{1}

Code | Title | Units |
---|---|---|

Compulsory Courses: | ||

30 course units in mechanical engineering (MCG) at the graduate level approved by the Department | 30 Units | |

Seminar: | ||

MCG 5947 | Master of Engineering Seminar | 0 Unit |

Note(s)

^{1} | In accordance with regulation B.2.7, all students are expected to complete the major part of their program requirements while enrolled in the program at the University of Ottawa. |

## Minimum Requirements

The passing grade in all courses is B.

Students who fail six units, or the thesis proposal, or whose research progress report is deemed unsatisfactory are required to withdraw from the program.

## Research Fields & Facilities

Located in the heart of Canada’s capital, a few steps away from Parliament Hill, the University of Ottawa is among Canada’s top 10 research universities.

uOttawa focuses research strengths and efforts in four Strategic Areas of Development in Research (SADRs):

- Canada and the World
- Health
- e-Society
- Molecular and Environmental Sciences

With cutting-edge research, our graduate students, researchers and educators strongly influence national and international priorities.

## Research at the Faculty of Engineering

Areas of research:

- Chemical and Biological Engineering
- Civil Engineering
- Electrical Engineering and Computer Science
- Mechanical Engineering

For more information, refer to the list of faculty members and their research fields on **Uniweb**.

**IMPORTANT: Candidates and students looking for professors to supervise their thesis or research project can also consult the website of the faculty or department of their program of choice. Uniweb does not list all professors authorized to supervise research projects at the University of Ottawa.**

In all programs, the student may choose graduate courses from either university with the approval of the Advisor or Advisory Committee. The available graduate courses are listed below. Course descriptions are to be found in the departmental section of the calendar concerned. All courses are of one term duration. Courses of each department are indicated by the prefix of the first number given as follows:

**MCG 5XXXX Department of Mechanical Engineering, University of Ottawa**

**MAAJ XXXX Department of Mechanical and Aerospace Engineering, Carleton University**

Not all of the listed courses are given each year. The course is offered in the language in which it is described.

**MCG 5101 Theory of Elasticity (3 units)**

Analysis of stress and strain. Stress and strain tensors. Yield criteria laws of elasticity and general theorems. Stress functions. Two-dimensional problems in rectangular and polar co-ordinates. Applications in plates and shells. Strain energy techniques. Application of numerical analysis to elasticity problems. This course is equivalent to MAAJ 5001 at Carleton University.

**Course Component: **Lecture

**MCG 5102 Advanced Stress Analysis (3 units)**

Solutions to special beam problems including beams on elastic foundations, curved beams, multispan beams, etc., as well as some axisymmetric problems. The significance of assumptions is discussed, and solution techniques including series solutions and energy methods are utilized. This course is equivalent to MAAJ 5002 at Carleton University.

**Course Component: **Lecture

**MCG 5103 Theory of Perfectly Plastic Solids (3 units)**

Inelastic behaviour, model materials. Yield criteria and flow laws. Energy principles. Contained plastic deformation. Plane strain. Slipline fields. Applications to metal-forming processes. This course is equivalent to MAAJ 5003 at Carleton University.

**Course Component: **Lecture

**MCG 5104 Theory of Plates and Shells (3 units)**

A general coverage of various approaches to plate problems and the application of these methods to practical cases. A study of the theory of shells including deformation of shells without bending, stresses under various loading conditions, general theory of shells, shells forming surfaces of revolution. This course is equivalent to MAAJ 5004 at Carleton University.

**Course Component: **Lecture

**MCG 5105 Continuum Mechanics (3 units)**

Fundamental equations of continuum mechanics. Thermodynamics of continua. Rheological equations. Hamilton's principle for continua. Analytical solution of some elasticity and incompressible fluid dynamic problems. Extension to viscoelasticity and plasticity. Sound waves. Shock waves. Numerical methods of solution. This course is equivalent to MAAJ 5005 at Carleton University.

**Course Component: **Lecture

**MCG 5106 Advanced Topics in Elasticity (3 units)**

Algebraic computation software. Curved solids. Governing equations of planar elastostatics in Cartesian coordinates. Linear elastostatics in curvilinear coordinates. Governing equations of plates. Linear shell theory in curvilinear coordinates. Introduction to non-linear elastostatics. Non-linear shell theory. Instability of cylindrical shells. Thick and thin shell elastodynamics. This course is equivalent to MAAJ 5006 at Carleton University.

**Course Component: **Lecture

**MCG 5107 Advanced Dynamics With Applications (3 units)**

Review of Euler/Newton and D'Alembert formulation, Euler Angles, gyrodynamics, rotating machinery. Lagrangian dynamics, generalized co-ordinates, virtual work, generalized forces and the power function. Systems constraint forces and equilibrium. Modelling and formulation of multi-degree of freedom vibrational, electro-mechanical, dissipative systems, and other engineering applications. This course is equivalent to MAAJ 5007 at Carleton University.

**Course Component: **Lecture

**MCG 5108 Finite Element Analysis (3 units)**

Review of matrix algebra and structural mechanics. Fundamentals of the finite element method. Analysis of two-dimensional trusses and the elastic continuum. Finite element program development, commercial programs, pre and post processers. Isoparametric concept, modelling issues. Steady-state field problems, axisymmetric analysis. Applications in mechanical engineering. This course is equivalent to MAAJ 5008 at Carleton University.

**Course Component: **Lecture

**MCG 5109 Advanced Topics in Finite Element Analysis (3 units)**

Finite elements and their solution techniques. Multilayered plate, shell and continua. Eigenvalue and transient analysis, material and geometric non-linearities. Applications to fracture mechanics. Steady and transient state heat conduction. Potential flow. Creeping flow and incompressible viscous flow with inertia. This course is equivalent to MAAJ 5009 at Carleton University.

**Course Component: **Lecture

**MCG 5110 Micromechanics of Solids (3 units)**

Introduction. Classes of materials in Micromechanics. Continuum Mechanics vs Probabilistic Micromechanics. Cartesian Tensor Notation. Analysis of stress, strain and motion. The stochastic deformation process and theory. Structured materials and intelligent systems. Experimental approaches. This course is equivalent to MAAJ 5100 at Carleton University.

**Course Component: **Lecture

**MCG 5111 Gas Dynamics (3 units)**

Review of thermodynamics. Conservation equations. Wave propagation in compressible media. Isentropic flow. Normal and oblique shock waves. Prandtl-Meyer expansion fans. Applications. Ideal gas flow in ducts of variable section, friction, heat transfer. Method of characteristics. Imperfect gas effects, dissociation, ionization. Methods of measurement. This course is equivalent to MAAJ 5101 at Carleton University.

**Course Component: **Lecture

**MCG 5114 Analysis and Design of Pressure Vessels (3 units)**

Principles of design, materials, preliminary layout. Elastic analysis of axisymmetric shells, discontinuity analysis. Numerical methods, nozzle-shell analysis. Plastic collapse, fatigue, fracture, creep, buckling. This course is equivalent to MAAJ 5104 at Carleton University.

**Course Component: **Lecture

**MCG 5115 Nonlinear Optimization (3 units)**

Formulation of optimization problems. Unconstrained optimization: direct search techniques, gradient techniques. Constrained optimization: by unconstrained minimization, by direct methods. Mathematical programming. Geometric programming. Dynamic programming. Examples and applications in Mechanical Engineering topics. This course is equivalent to MAAJ 5105 at Carleton University.

**Course Component: **Lecture

**MCG 5117 Introduction to Composite Materials (3 units)**

Constituent materials fibres, resins, industrial reinforcements, prepregs. Manufacturing processes: preforming, fibre placement, liquid moulding, pultrusion, resin film infusion, in-autoclave and out-of-autoclave consolidation. Design for composites. Micromechanics, strength, classic theory of laminates. Practical case studies. Courses MCG 5117, MCG 4117 cannot be combined for units. This course is equivalent to MAAJ 5107 at Carleton University.

**Course Component: **Lecture

Exclusion: May not be taken for credit with MCG 4117.

**MCG 5118 Introduction to Plasticity (3 units)**

The analysis of stress and strain in elastic and plastic continuum. Time independent plastic deformation. The microscopic basis of plastic behaviour. Rate dependent deformation. The effect of temperature. Materials testing. Applications. This course is equivalent to MAAJ 5108 at Carleton University.

**Course Component: **Lecture

**MCG 5119 Fracture Mechanics (3 units)**

Stress concentration in elastic and plastic media. The energy condition, crack resistance, compliance, the J. integral. Crack arrest. Plain strain and plain stress behaviour. The microscopic aspects of crack propagation. The effect of temperature. Fatigue, stress corrosion cracking, and creep fracture. Probabilistic fracture. This course is equivalent to MAAJ 5109 at Carleton University.

**Course Component: **Lecture

**MCG 5121 Space Mission Analysis and Design (3 units)**

Review of solar system and space exploration. Space mission design and geometry. Analysis of orbit design, transfers, interplanetary trajectories. Effect of environment on spacecraft design. Space propulsion and launch vehicle design. Launch sequence, windows, cost. Reusable launch systems. This course is equivalent to MECH 5106 at Carleton University.

**Course Component: **Lecture

**MCG 5122 Smart Structures (3 units)**

Structural dynamics principles: modal analysis and wave propagation. Linear time invariant systems: feedback, feedforward, SISO, MIMO, digital and adaptive filters. "Smart" Structures: multifunctional materials, collocation principles, geometric filtering and control authority. Applications in aero-acoustics and aeroelasticity. Courses MCG 5122, MCG 5387 (MECH 5807) cannot be combined for units. This course is equivalent to MECH 5202 at Carleton University.

**Course Component: **Lecture

**MCG 5123 Microstructure and Properties of Materials (3 units)**

This course is equivalent to MECH 5609 at Carleton University.

**Course Component: **Lecture

**MCG 5124 Advanced Kinematics (3 units)**

Algebraic-geometry applications: kinematic calibration of serial and in-parallel robots; kinematic synthesis of planar, spherical, spatial mechanisms. Various DH-parametrisations, Jacobian formulations. Topics in projective geometry; Cayley-Klein geometries; Plücker line coordinates; Gröbner bases; Grassmannians; kinematic mapping; Burmester theory. Emphasis on practical applications. This course is equivalent to MECH 5507 at Carleton University.

**Course Component: **Lecture

**MCG 5125 Advanced Dynamics (3 units)**

Developing and applying the governing equations of motion for discrete and continuous mechanical systems. Includes Newton-Euler and Lagrangian formulations; classical and finite element approaches for continuous systems; and linear stability, frequency response, and propagation solution methods. This course is equivalent to MECH 5501 at Carleton University.

**Course Component: **Lecture

Precludes additional credit for MCG 5350 (MECH 5500).

**MCG 5126 Deformation of Materials (3 units)**

The deformation and fracture properties of metals, ceramics and polymers. Introduction to dislocation theory. Rheological models. Analysis and interpretation of constant strain rate, constant stress and stress relaxation tests in terms of the material structure. This course is equivalent to MAAJ 5206 at Carleton University.

**Course Component: **Lecture

**MCG 5129 Hot Working Metals (3 units)**

High temperature mechanical properties in metals. Types of recovery, recrystallization and precipitation in metals and their effects on hot strength and structure. Hot rolling of metals. Selection of rolling schedules. Influence of as-rolled structures on room temperature tensile and fracture stresses, impact strength. This course is equivalent to MAAJ 5209 at Carleton University.

**Course Component: **Lecture

**MCG 5131 Heat Transfer by Conduction (3 units)**

Steady one-dimensional systems. Equations of Bessel and Legendre. Extended surface. Fourier series and partial differential equations. Steady two-dimensional systems. Steady-state numerical methods. Steady heat source systems. Steady porous systems. Transient systems; stationary and moving sources. Transient numerical method. This course is equivalent to MAAJ 5301 at Carleton University.

**Course Component: **Lecture

**MCG 5132 Heat Transfer by Convection (3 units)**

General problems of convection. Fundamental equations. Boundary layer equations. Forced convection in laminar flow. Forced convection in turbulent flow. Free convection. Condensing and boiling. Heat transfer to liquid metals. Heat transfer in high-speed flow. Special topics. This course is equivalent to MAAJ 5302 at Carleton University.

**Course Component: **Lecture

**MCG 5133 Heat Transfer by Radiation (3 units)**

Thermal radiation and radiation properties. Radiant interchange among surfaces separated by radiatively non-participating media. Radiant energy transfer through absorbing, emitting and scattering media. Combined conduction and radiation. This course is equivalent to MAAJ 5303 at Carleton University.

**Course Component: **Lecture

**MCG 5134 Heat Transfer With Phase Change (3 units)**

Pool boiling. Hydrodynamics of two-phase flow. Flow boiling and flow boiling crisis. Instability of two-phase flow. Condensation. This course is equivalent to MAAJ 5304 at Carleton University.

**Course Component: **Lecture

**MCG 5136 Special Studies in Fluid Mechanics and Heat Transfer (3 units)**

This course is equivalent to MAAJ 5306 at Carleton University.

**Course Component: **Lecture

**MCG 5137 Special Studies in Solid Mechanics and Materials (3 units)**

This course is equivalent to MAAJ 5307 at Carleton University.

**Course Component: **Lecture

**MCG 5138 Advanced Topics in Mechanical Engineering (3 units)**

This course is equivalent to MAAJ 5308 at Carleton University.

**Course Component: **Lecture

**MCG 51382 Advanced Topics: Appl. Reliable Theo. (3 units)**

**Course Component: **Lecture

**MCG 5141 Statistical Thermodynamics (3 units)**

Kinetic theory of an ideal gas. The distribution of molecular velocities. Transport phenomena. Maxwell-Boltzmann statistics. Quantum mechanics. Quantum statistics. Partition functions. Partition functions and thermodynamic properties. Derivations of specific heats of gases. Gas mixtures. Law of mass action. This course is equivalent to MAAJ 5401 at Carleton University.

**Course Component: **Lecture

**MCG 5144 Superalloys and Ceramix-Metal Matrix Composites (3 units)**

Manufacture and properties of superalloys and ceramic-metal matrix composites used in aerospace, turbine, mining and energy applications. Powder metallurgy, phase diagrams, mechanical alloying, deformation, creep, fatigue, fracture mechanics, wear and corrosion. Physics-based modelling of materials' strength including the contribution of solid solution, precipitation and ceramic particle strengthening as a function of application temperature.

**Course Component: **Lecture

**MCG 5151 Laminar Flow Theory (3 units)**

Derivation and exact solutions of the Navier-Stokes equations. Low Reynolds number flows, Stokes flow. Oseen flow, lubrication theory. Laminar boundary layers. Introduction to hydrodynamic stability. This course is equivalent to MAAJ 5501 at Carleton University.

**Course Component: **Lecture

**MCG 5152 Theory of Turbulence (3 units)**

Review of the basic theories and experimental results of turbulent flow. Universal equilibrium theory, locally isotropic theories, isotropic turbulence, homogeneous shear flow, turbulent pipe and channel flow, jets, wakes, boundary layers. Turbulent diffusion of passive contaminants. Modelling of turbulence. This course is equivalent to MAAJ 5502 at Carleton University.

**Course Component: **Lecture

**MCG 5155 Inviscid Flow Theory (3 units)**

Langrangian and Eulerian description of fluid motion. Euler equations, velocity potential, irrotational flow, stream function, singular flows. Conformal mapping, Schwarz-Christoffel theorems. Airfoil theory, circulation and lift. This course is equivalent to MAAJ 5505 at Carleton University.

**Course Component: **Lecture

**MCG 5156 Measurement in Fluid Mechanics (3 units)**

Review of the common experimental techniques used in fluid mechanical research and applications. Flow visualization techniques. Hot-wire anemometry. Laser-Doppler anemometry. Measurement of concentration, temperature, force, pressure. This course is equivalent to MAAJ 5506 at Carleton University.

**Course Component: **Lecture

**MCG 5157 Numerical Computation of Fluid Dynamics and Heat Transfer (3 units)**

Governing equations. Explicit, implicit, finite difference and control volume procedures for approximating the parabolic and elliptic sets of partial differential equations and boundary conditions. Numerical solution by direct and iterative Gauss-Seidel relaxation methods. Considerations of stability, convergence, and numerical diffusion. Computational problems. This course is equivalent to MAAJ 5507 at Carleton University.

**Course Component: **Lecture

**MCG 5158 Industrial Fluid Mechanics (3 units)**

Application of simple flows to analysis of more complex systems. Pipe and duct systems, flow separation and control, aerosols, separation of particulates from flow, cavitation, unsteady flow. This course is equivalent to MAAJ 5508 at Carleton University.

**Course Component: **Lecture

**MCG 5159 Advanced Production Planning and Control (3 units)**

The principles of production management. Methods engineering, manufacturing control. Recording and evaluation of operations. Financial and production planning. Inventory control. Automation. Factory planning. This course is equivalent to MAAJ 5509 at Carleton University.

**Course Component: **Lecture

**MCG 5161 Environmental Engineering (3 units)**

Thermodynamic considerations. Physiological reactions of humans to different environments. Principles of ventilation, distribution and cleaning of air. Illumination and acoustics. This course is equivalent to MAAJ 5601 at Carleton University.

**Course Component: **Lecture

**MCG 5167 Nuclear Reactor Engineering (3 units)**

**Course Component: **Lecture

**MCG 5168 Industrial Organization (3 units)**

Principles of organization. Production processes. Organization and planning production. Evaluation of production activities. The economics of production. Planning for economy. Information engineering. Standardization. This course is equivalent to MAAJ 5608 at Carleton University.

**Course Component: **Lecture

**MCG 5169 Advanced Topics in Reliability Engineering (3 units)**

Overview of classical reliability concepts. Fault tree construction and evaluation. Common-cause failure analysis of engineering systems. Human reliability modelling in engineering systems. Human unreliability data banks. Reliability of information and communication systems. This course is equivalent to MAAJ 5609 at Carleton University.

**Course Component: **Lecture

**MCG 5170 Computer-Aided Design (3 units)**

The design process. Structure of computer-aided drafting software. Analysis and optimization software. Software integration. Parametric design. Major group design project which integrates concepts from all major areas of mechanical engineering. Courses MCG 5170, MCG 4322 cannot be combined for units. This course is equivalent to MAAJ 5700 at Carleton University.

**Course Component: **Lecture

Exclusion: May not be taken for credit with MCG 4322.

**MCG 5171 Applied Reliability Theory (3 units)**

Failure rate. Repair time. System reliability estimation: binomial model. Strength stress model. Failure detection and isolation. Statistical quality control. This course is equivalent to MAAJ 5701 at Carleton University.

**Course Component: **Lecture

**MCG 5172 Introduction to Management of Automation (Robotics and Numerical Controls) (3 units)**

Administrative concept of automation, robotics and numerical control; elements of flexible manufacturing systems. Process design in automation. Role of automation in the administration of manufacturing and project engineering. Optimization in the design of computer-assisted manufacturing (CAM). State of art review. This course is equivalent to MAAJ 5702 at Carleton University.

**Course Component: **Lecture

**MCG 5173 Systems Engineering and Integration (3 units)**

Introduction to modelling methods employed for the planning and design of sub-systems and complex systems. Discrete and continuous time, lumped and distributed parameters models. State estimation. Parameters identification. Discretization and stochastic effects. Technological systems modelling and simulation examples. This course is equivalent to MAAJ 5703 at Carleton University.

**Course Component: **Lecture

**MCG 5176 Industrial Control Systems (3 units)**

Concept, analysis and design of classical and modern industrial control systems. Computer based control systems for robotics, automation, manufacturing and instrumentation applications. Design project of industrial control and automation systems. Courses MCG 5176, MCG 4108 cannot be combined for units. This course is equivalent to MAAJ 5706 at Carleton University.

**Course Component: **Lecture

**MCG 5177 Robot Mechanics (3 units)**

Robotics overview. Transformations. Basics of robot kinematics, statics and dynamics. Introduction to practical robots, control and programming. Project in analysis, design or application of manipulators. Courses MCG 5177, MCG 4132 cannot be combined for units. This course is equivalent to MAAJ 5707 at Carleton University.

**Course Component: **Lecture

**MCG 5178 Advanced Topics in CAD/CAM (3 units)**

Overview of totally integrated CAD/CAM systems. Details of design and manufacturing software tools. Methods of linking design and manufacturing tools to form an integrated CAD/CAM system. Students will undertake projects which will provide them with a "hands-on" experience. This course is equivalent to MAAJ 5708 at Carleton University.

**Course Component: **Lecture

**MCG 5179 Manufacturing System Analysis (3 units)**

Manufacturing systems, system selection, cost justification. Flexible and agile, group technology cellular manufacturing operations. Transfer and assembly line systems. Material transport and storage systems. Process planning, tolerance analysis, Taguchi methods. Manufacturing and assembly. Just-in-time production. Quality function deployment. This course is equivalent to MAAJ 5709 at Carleton University.

**Course Component: **Lecture

**MCG 5180 Fibre Composite Materials (3 units)**

Computer-automated manufacturing techniques. Advanced topics in composite design: lamination theory. Interlaminar stresses and free edge effects, lamina and laminate failure theories. Principles of non-destructive testing. Individual projects involving the design, manufacturing and testing of a fibre composite component or material. Limited enrolment.

**Course Component: **Lecture

Prerequisite: MCG 5117.

**MCG 5181 Advanced Vibrations (3 units)**

Kinematics of vibrations, the single degree of freedom system, without and with damping, two degrees of freedom, several degrees of freedom, vibration of shafts, critical speeds, complex presentation, influence coefficients, matrix method, stability of solution, approximate methods. This course is equivalent to MAAJ 5801 at Carleton University.

**Course Component: **Lecture

**MCG 5182 Theory of Elastic Instability (3 units)**

Considerations of instability with respect to small deformation. Differential equations for linear elements. Conservative and non-conservative force systems. Energy methods. Instability in beams. Instability of elements curved in a plane. Applications of trigonometric series. Stability of linear members in the inelastic zone. This course is equivalent to MAAJ 5802 at Carleton University.

**Course Component: **Lecture

**MCG 5184 Mechatronics (3 units)**

Models for passive and active components for electro-mechanical systems. Network representation of signals and energy transmission and conversion. Selection of sensors and actuators for the control of mechanical systems. Modelling and simulation for the design of mixed dynamic systems. Courses MCG 5184, MCG 4136 cannot be combined for units. This course is equivalent to MAAJ 5804 at Carleton University.

**Course Component: **Lecture

**MCG 5185 Multivariable Digital Control (3 units)**

Quantization. Z-Transform. State equations. Jordan canonical form. Multirate and nonsynchronous samplings. Controllability and observability of digital systems. Digital controllers design using bilinear transformation. Digital PID controller. Stability. Optimal control of digital systems. Examples of controlling mechanical system actuators. This course is equivalent to MAAJ 5805 at Carleton University.

**Course Component: **Lecture

**MCG 5186 Non-Linear Discontinuous Dynamics and Control (3 units)**

Hamiltonian dynamics. Hamiltonian control systems. Lyapunov dynamics. Decoupling. Phase space analysis. Switching and sliding mode control. Boundary layer continuous approximation. Actuator, sensors and controller requirements. Manipulation control examples. This course is equivalent to MAAJ 5806 at Carleton University.

**Course Component: **Lecture

**MCG 5191 Combustion in Premixed Systems (3 units)**

Stoichiometry, thermo-chemistry, ignition, flame propagation, flame stabilization, diffusion flames, turbulent combustion, modelling. This course is equivalent to MAAJ 5901 at Carleton University.

**Course Component: **Lecture

**MCG 5192 Combustion in Diffusion Systems (3 units)**

Gaseous jet flames, combustion of liquid droplets, atomization, spray flames, coal combustion, fluidized bed combustion. This course is equivalent to MAAJ 5902 at Carleton University.

**Course Component: **Lecture

**MCG 5300 Fundamentals of Fluid Dynamics (3 units)**

Differential equations of motion. Viscous and inviscid regions. Potential flow: superposition; thin airfoils; finite wings; compressibility corrections. Viscous flow: thin shear layer approximation; laminar layers; transition; turbulence modelling. Convective heat transfer: free versus forced convection; energy and energy integral equations; turbulent diffusion. This course is equivalent to MECH 5000 at Carleton University.

**Course Component: **Lecture

**MCG 5301 Theory of Viscous Flows (3 units)**

Navier-Stokes and boundary layer equations; mean flow equations for turbulent kinetic energy; integral formulations. Stability, transition, turbulence, Reynolds stresses; separation. Calculation methods, closure schemes. Compressibility, heat transfer, and three-dimensional effects. This course is equivalent to MECH 5001 at Carleton University.

**Course Component: **Lecture

**MCG 5303 Incompressible Non-Viscous Flows (3 units)**

The fundamental equations and theorems for non-viscous fluid flow; solution of two-dimensional and axisymmetric potential flows; low-speed airfoil and cascade theory; wing lifting-line theory; panel methods. This course is equivalent to MECH 5003 at Carleton University.

**Course Component: **Lecture

**MCG 5304 Compressible Non-Viscous Flows (3 units)**

Steady isentropic, frictional, and diabatic flow; shock waves; irrotational compressible flow, small perturbation theory and similarity rules; second-order theory and unsteady, one-dimensional flow. This course is equivalent to MECH 5004 at Carleton University.

**Course Component: **Lecture

**MCG 5306 Theory of Subsonic Flows (3 units)**

**Course Component: **Lecture

**MCG 5307 Theory of Supersonic Flows (3 units)**

**Course Component: **Lecture

**MCG 5308 Experimental Methods in Fluid Mechanics (3 units)**

Fundamentals of techniques of simulation of fluid dynamic phenomena. Theoretical basis, principles of design, performance and instrumentation of ground test facilities. Applications to aerodynamic testing. This course is equivalent to MECH 5008 at Carleton University.

**Course Component: **Lecture

**MCG 5309 Environmental Fluid Mechanics Relating to Energy Utilization (3 units)**

Characteristics of energy sources and emissions into the environment. The atmosphere; stratification and stability, equations of motion, simple winds, mean flow, turbulence structure and dispersion near the ground. Flow and dispersion in groundwater, rivers, lakes and oceans. Physical and analytical modelling of environmental flows. This course is equivalent to MECH 5009 at Carleton University.

**Course Component: **Lecture

**MCG 5310 Performance and Economics of V/Stol Aircraft (3 units)**

Aircraft performance analysis with emphasis on factors affecting take-off, landing and economic performance; high lift schemes; operating economics. This course is equivalent to MECH 5100 at Carleton University.

**Course Component: **Lecture

**MCG 5311 Dynamics and Aerodynamics of Low Speed Flight (3 units)**

Static stability theory. Euler's equations for rigid body motion; the linearized equations of motion; stability derivatives and their estimation. Longitudinal and lateral dynamic response of an aircraft to control and disturbance. This course is equivalent to MECH 5101 at Carleton University.

**Course Component: **Lecture

**MCG 5314 Ground Transportation Systems and Vehicles (3 units)**

Performance characteristics, handling and directional stability, ride comfort and safety of various types of ground vehicle systems including road vehicles, terrain-vehicle systems, guided transport systems, and advanced ground transport technology. This course is equivalent to MECH 5104 at Carleton University.

**Course Component: **Lecture

**MCG 5315 Orbital Mechanics and Space Craft Control (3 units)**

Orbital dynamics and perturbations due to the Earth's figure, the sun, and the moon with emphasis on mission planning and analysis. Rigid body dynamics applied to transfer orbit and on-orbit momentum management and control of spacecraft. Effects of flexible structures on a spacecraft control system. This course is equivalent to MECH 5105 at Carleton University.

**Course Component: **Lecture

**MCG 5317 Experimental Stress Analysis (3 units)**

Introduction to theory of elasticity. Photo-elasticity: types of polariscopes, two- and three-dimensional stress fields, frozen patterns. Photoelastic coatings. Strain gauges; gauge factors, sensitivity, calibration, and temperature compensation. Moire fringes, brittle lacquers, mechanical strain gauges. This course is equivalent to MECH 5107 at Carleton University.

**Course Component: **Lecture

**MCG 5321 Methods of Energy Conversion (3 units)**

Technical, economic and environmental aspects of present and proposed large-scale systems of energy conversion. This course is equivalent to MECH 5106/MECH 5201 at Carleton University.

**Course Component: **Lecture

**MCG 5330 Engineering Acoustics (3 units)**

Review of acoustic waves in compressible fluids; acoustic pressure, intensity and impedance; physical interpretation and measurement; transmission through media; layers, in-homogeneous media, solids; acoustic systems; rooms, ducts, resonators, mufflers, properties of transducers; microphones, loudspeakers, computational acoustics. This course is equivalent to MECH 5300 at Carleton University.

**Course Component: **Lecture

**MCG 5331 Aero-Acoustics (3 units)**

The convected wave equation; theory of subsonic and supersonic jet noise; propeller and helicopter noise; fan and compressor noise; boundary layer noise, interior noise; propagation in the atmosphere; sonic boom; impact on environment. This course is equivalent to MECH 5301 at Carleton University.

**Course Component: **Lecture

**MCG 5332 Instrumentation Techniques (3 units)**

An introduction for the non-specialists to the concepts of digital and analog electronics with emphasis on data acquisition, processing and analysis. Topics covered include operational amplifiers, signal processing, digital logic systems, computer interfacing, noise in electronic systems. Hands-on sessions illustrate theory and practice. This course is equivalent to MECH 5302 at Carleton University.

**Course Component: **Lecture

**MCG 5334 Computational Fluid Dynamics of Compressible Flows (3 units)**

Solution techniques for parabolic, elliptic and hyperbolic equations developed for problems of interest to fluid dynamics with appropriate stability considerations. A staged approach to solution of full Euler and Navier-Stokes equations is used. Grid generation techniques appropriate for compressible flows are introduced. This course is equivalent to MECH 5304 at Carleton University.

**Course Component: **Lecture

**MCG 5341 Turbomachinery (3 units)**

Types of machines. Similarity: performance parameters; characteristics; cavitation. Velocity triangles. Euler equation: impulse and reaction. Radial pumps and compressors: analysis, design and operation. Axial pumps and compressors: cascade and blade-element methods; staging; off-design performance; stall and surge. Axial turbines. Current design practice. Courses MCG 5341, MCG 4110 (MECH 4305) cannot be combined for units. This course is equivalent to MECH 5401 at Carleton University.

**Course Component: **Lecture

**MCG 5342 Gas Turbines (3 units)**

Interrelationship among thermodynamic, aerodynamic, and mechanical design. Ideal and real cycle calculations. Cycle optimization; turbo-shaft, turbojet, turbofan. Component performance. Off-design performance; matching of compressor, turbine, nozzle. Twin-spool matching. This course is equivalent to MECH 5402 at Carleton University.

**Course Component: **Lecture

**MCG 5343 Advanced Thermodynamics (3 units)**

The course covers three major topics: review of fundamentals from a consistent viewpoint, properties and equations of state, and applications and special topics. The third topic includes an introduction to statistical thermodynamics. This course is equivalent to MECH 5403 at Carleton University.

**Course Component: **Lecture

**MCG 5344 Gas Turbine Combustion (3 units)**

This course covers two major topics: combustion fundamentals and gas turbine combustor design. Combustion fundamentals include fuel evaporation, chemistry of combustion, chemical kinetics and emission formation and introduction to computational combustion modeling. Combustor design addresses the interrelationship between operational requirements and combustion fundamentals. Courses MCG 5344, MCG 5480 (MECH 5800) cannot be combined for units if MCG 5344 is taken as the topic. This course is equivalent to MECH 5400 at Carleton University.

**Course Component: **Lecture

**MCG 5345 Surfaces and Coatings (3 units)**

Surface characteristics of solid materials and surface degradation/failure mechanisms including wear, fretting, oxidation, corrosion, and erosion are introduced. Coating methods including PVD, CVD, laser, thermal spray and electrochemical deposition are discussed in the context of failure prevention measures. This course is equivalent to MECH 5700 at Carleton University.

**Course Component: **Lecture

**MCG 5347 Conductive and Radioactive Heat Transfer (3 units)**

Analytical, numerical and analog solutions to steady-state and transient conduction heat transfer in multi-dimensional systems. Radiative heat exchange between black, grey, non-grey diffusive and specular surfaces, including effects of athermanous media. This course is equivalent to MECH 5407 at Carleton University.

**Course Component: **Lecture

**MCG 5348 Convective Heat and Mass Transfer (3 units)**

Analogies between heat, mass and momentum transfer. Forced and free convection relations for laminar and turbulent flows analytically developed where possible and otherwise deduced from experimental results, for simple shapes and in heat exchangers. Mass transfer theory and applications. This course is equivalent to MECH 5408 at Carleton University.

**Course Component: **Lecture

**MCG 5349 Two-Phase Flow and Heat Transfer (3 units)**

**Course Component: **Lecture

**MCG 5350 Advanced Vibration Analysis (3 units)**

General theory of discrete multi-degree-of-freedom vibrating systems. Emphasis on numerical techniques of solving complex vibrating systems, with selected applications from aeronautical, civil, and mechanical engineering. This course is equivalent to MECH 5500 at Carleton University.

**Course Component: **Lecture

**MCG 5352 Optimal Control Systems (3 units)**

Review of transfer function and state-space system descriptions. Elements of the optimal control problem. Variational calculus. Optimal state feedback control. Riccati equations. Optimal observers and Kalman-Bucy Filters. Extension to discrete time systems including an introduction to dynamic programing. Practical applications are emphasized throughout the course. This course is equivalent to MECH 5502 at Carleton University.

**Course Component: **Lecture

**MCG 5353 Robotics (3 units)**

The history of and introduction to robotics methodology. Robots and manipulators; homogeneous transformation, kinematic equations, solving kinematic equations, differential relationships, motion trajectories, dynamics. Control; feedback control, compliance, servomotors, actuators, external and internal sensors, grippers and vision systems. Microprocessors and their application to robot control. Programming. This course is equivalent to MECH 5503 at Carleton University.

**Course Component: **Lecture

**MCG 5354 Guidance, Navigation and Control (3 units)**

Guidance system classification, flight control systems, targeting, target tracking, sensing. Modern multivariable control analysis; design requirements, sensitivity, robustness, perturbations, performance analysis. Modern filtering and estimation techniques. Terrestrial navigation; tactical air navigation (TACAN), star trackers Guidance mission and performance. Aircraft, missile and spacecraft guidance and control. This course is equivalent to MECH 5504 at Carleton University.

**Course Component: **Lecture

**MCG 5355 Stability Theory and Applications (3 units)**

Fundamental concepts and characteristics of modern stability definitions. Sensitivity and variational equations; linear variational equations; phase space analysis; Lyapunov's direct method. Autonomous and nonautonomous systems; stability in first approximation; the effect of force type on stability; frequency method. This course is equivalent to MECH 5505 at Carleton University.

**Course Component: **Lecture

**MCG 5356 Neuro and Fuzzy Control (3 units)**

Knowledge-based controllers. Fuzzy control: mathematics, relations, operations, approximate reasoning. Fuzzy knowledge base control and structure. Fuzzification, inference engine; defuzzification. Nonlinear, adaptive fuzzy control systems. Stability, Neuro-Control: processing, learning. Adaptation of artificial neural systems: associative memories, algorithms, applications, and network implementation. Neurofuzzy systems: industrial applications. Courses MCG 5356, ELG 5386 (EACJ 5386), ELG 5196 (EACJ 5709) cannot be combined for units. This course is equivalent to MECH 5506 at Carleton University.

**Course Component: **Lecture

Exclusion: ELG 5386

**MCG 5361 Creative Problem Solving and Design (3 units)**

Problem-solving processes and how they can be applied in engineering design. Emphasis on learning methodologies rather than accumulating information. Techniques can be successfully applied in any engineering speciality. This course is equivalent to MECH 5601/IDES 5301 at Carleton University.

**Course Component: **Lecture

**MCG 5362 Failure Prevention (3 units)**

Design of engineering structures to ensure against failure due to fatigue or brittle fracture. Nature of fatigue and brittle fracture; selection of suitable material, geometry, and inspection procedures for the load and environmental conditions. This course is equivalent to MECH 5602 at Carleton University.

**Course Component: **Lecture

**MCG 5364 Computational Metallurgy (3 units)**

Development of microstructure in alloys in solidification processes and post-solidification processing. Nucleation and growth of solid phase. Formation of a dendrite structure, macro and micro segregations. Pore formation in castings. Thermodynamic and kinetics of phase transformations and structure evolution in solid alloys. This course is equivalent to MECH 5604 at Carleton University.

**Course Component: **Lecture

**MCG 5365 Finite Element Analysis I (3 units)**

An introduction to the finite element methodology, with emphasis on applications to heat transfer, fluid flow and stress analysis. The basic concepts of Galerkin's method, interpolation, numerical integration, and isoparametric elements are taught using simple examples. This course is equivalent to MECH 5605 at Carleton University.

**Course Component: **Lecture

**MCG 5366 Finite Element Analysis II (3 units)**

Time marching heat flow problems with linear and nonlinear analysis. Static plasticity. Time-dependent deformation problems; viscoplasticity, viscoelasticity, and dynamic analysis. Isoparametric elements and numerical integration are used throughout. This course is equivalent to MECH 5606 at Carleton University.

**Course Component: **Lecture

**MCG 5367 The Boundary Element Method (Bem) (3 units)**

Integral equations. The BEM for potential theory and for elastostatics in two-dimensions. Boundary elements and numerical integration schemes. Practical applications. This course is equivalent to MECH 5607 at Carleton University.

**Course Component: **Lecture

**MCG 5369 Metallic Phases and Transformations (3 units)**

Thermodynamics of crystals, phase diagrams, principles of alloy phases, thermal analysis. Transformation rate and mechanisms. Short and long range diffusional transformations; diffusionless transformations. Phase transformations in engineering systems.

**Course Component: **Lecture

**MCG 5370 Special Topics in Mechanical and Aeronautical Engineering (3 units)**

**Course Component: **Lecture

**MCG 5374 Integrated Manufacturing - Cims (3 units)**

Topics essential to CIMS including computer graphics, geometric modelling, numerically controlled machining, and flexible manufacturing. The fundamental data structures and procedures for computerization of engineering design, analysis and production. This course is equivalent to MECH 5704 at Carleton University.

**Course Component: **Lecture

**MCG 5375 CAD/CAM (3 units)**

Computer-aided design process, computer graphics including hardware and software standards. Wire frames, boundary representations, constructive solids geometry, sculptured surfaces. Data bases. Graphics and product interchange files. Computer-aided manufacturing; numerical control, CNC, DNC, adaptive control. CAM programming, popular commercial CAD programs. Management issues. This course is equivalent to MECH 5705 at Carleton University.

**Course Component: **Lecture

**MCG 5380 Safety and Risk Assessment of Nuclear Power (3 units)**

**Course Component: **Lecture

**MCG 5381 Lightweight Structures (3 units)**

Structural behaviour. Fundamentals of basic elasticity. Energy methods of structural analysis. Bending, shear, and torsion of open and closed multicell structures. Bending of plates. Structural idealization and its effects on open and closed sections. Structural stability. This course is equivalent to MECH 5603 at Carleton University.

**Course Component: **Lecture

**MCG 5396 Directed Studies (3 units)**

**Course Component: **Research

**MCG 5398 Independent Engineering Study (3 units)**

Students pursuing a master's degree by course work carry out an independent study, analysis, and solution of an engineering problem or design project. The results are given in the form of a written report and presented at a departmental seminar. Carried out under the general direction of a faculty member. This course is equivalent to MECH 5908 at Carleton University.

**Course Component: **Lecture

**MCG 5470 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5471 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5472 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5473 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5474 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5475 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5476 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5477 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5478 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5479 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5480 Special Topics in Mechanical and Aerospace Engineering (3 units)**

In-depth study of a topic in Mechanical and Aerospace Engineering. This course is equivalent to MECH 5800 at Carleton University.

**Course Component: **Lecture

**MCG 5481 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5482 Special Topics in Mechanical and Aerospace Engineering (3 units)**

This course is equivalent to MECH 5805 at Carleton University.

**Course Component: **Lecture

**MCG 5483 Special Topics in Mechanical and Aerospace Engineering (3 units)**

This course is equivalent to MECH 5802 at Carleton University.

**Course Component: **Lecture

**MCG 5484 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5485 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5486 Special Topics an Mechanical and Aerospace Engineering (3 units)**

This course is equivalent to MECH 5806 at Carleton University.

**Course Component: **Lecture

**MCG 5487 Special Topics in Mechanical and Aerospace Engineering (3 units)**

This course is equivalent to MECH 5807 at Carleton University.

**Course Component: **Lecture

**MCG 5488 Special Topics in Mechanical and Aerospace Engineering (3 units)**

This course is equivalent to MECH 5803 at Carleton University.

**Course Component: **Lecture

**MCG 5489 Special Topics in Mechanical and Aerospace Engineering (3 units)**

Topics will vary from year to year. This course is equivalent to MECH 5801 at Carleton University.

**Course Component: **Lecture

**MCG 5490 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5491 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5492 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5493 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5494 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5495 Special Topics in Mechanical and Aerospace Engineering (3 units)**

**Course Component: **Lecture

**MCG 5551 Théorie d'écoulement visqueux (3 crédits)**

Dérivation des solutions exactes des équations de Navier-Stokes. Écoulement à petit nombre de Reynolds. Écoulement de Stokes. Écoulement d'Oseen. Théorie de lubrification. Couches limites laminaires. Introduction à la stabilité hydrodynamique. Ce cours est équivalent à MAAJ 5408 à la Carleton University.

**Volet : **Cours magistral

**MCG 5552 Théorie de turbulence (3 crédits)**

Révision des théories fondamentales et des résultats expérimentaux des écoulements turbulents. Théorie universelle de l'équilibre, théorie isotropique locale. Turbulence isotropique, contrainte homogène des écoulements, écoulements turbulents dans les tuyaux et les canaux, jets, sillages, couches limites. Diffusion turbulente. Modèles de turbulence. Ce cours est équivalent à MAAJ 5409 à la Carleton University.

**Volet : **Cours magistral

**MCG 5557 Méthodes numériques en mécanique (3 crédits)**

Équations primitives. Méthodes de différences finies. Méthodes intégrales. Critère de stabilité. Calcul des écoulements transitoires laminaires tri-dimensionnels. Méthodes MAC de Los Alamos. Calcul des écoulements multidimensionnels turbulents. Modèles de turbulence. Méthode numérique de Gosman. Ce cours est équivalent à MAAJ 5500 à la Carleton University.

**Volet : **Cours magistral

**MCG 5900 Séminaire de M.A.Sc. / MASc Seminar**

Une série de séminaires présentés par des étudiants aux cycles supérieurs et des chercheurs invités. En plus d'avoir à présenter un séminaire, les étudiants doivent assister et participer à au moins dix séminaires. Noté S (satisfaisant) ou NS (non satisfaisant). / A series of seminars presented by graduate students and invited researchers. Students are required to attend and participate in at least 10 seminars and to make one presentation. Graded S (Satisfactory) / NS (Not satisfactory).

**Volet / Course Component: **Séminaire / Seminar

**MCG 5947 Séminaire de maîtrise en ingénierie / Master of Engineering Seminar**

Une série de séminaires présentés par des étudiants aux cycles supérieurs et des chercheurs invités. Les étudiants doivent assister et participer à au moins dix séminaires. Noté S (satisfaisant) ou NS (non satisfaisant). / A series of seminars presented by graduate students and invited researchers. Students are required to attend and participate in at least 10 seminars. Graded S (Satisfactory) / NS (Not satisfactory).

**Volet / Course Component: **Séminaire / Seminar

**MCG 6998 Projet / Project (6 crédits / 6 units)**

Projet en génie mécanique ou en matériaux avancés et fabrication dirigé par un professeur approuvé par le directeur des études supérieures et donnant lieu à la rédaction d'un rapport approfondi (30-40 pages approx). Noté S (satisfaisant) ou NS (non satisfaisant) par le directeur du projet et un autre professeur nommé par le directeur des études supérieures en génie mécanique. Le projet est normalement complété en une session d'études à temps plein. / Project in mechanical engineering or in advanced materials and manufacturing supervised by a professor approved by the director of graduate studies and leading to the writing of an in-depth report (approx. 30-40 pages). Graded S (Satisfactory) or NS (Not satisfactory) by the supervisor and by another professor appointed by the director of graduate studies in Mechanical Engineering. The project can normally be completed in one session of full-time study.

**Volet / Course Component: **Recherche / Research

**MCG 7999 Thèse maîtrise / MASc Thesis**

**Volet / Course Component: **Recherche / Research

**MCG 9900 Séminaire de doctorat / PhD Seminar**

Une série de séminaires présentés par des étudiants aux cycles supérieurs et des chercheurs invités. En plus d'avoir à présenter un séminaire, les étudiants doivent assister et participer à au moins 15 séminaires. Noté S (satisfaisant) ou NS (non satisfaisant) / A series of seminars presented by graduate students and invited researchers. Students are required to attend and participate in at least 15 seminars and make one presentation. Graded S (Satisfactory) / NS (Not satisfactory).

**Volet / Course Component: **Séminaire / Seminar

**MCG 9997 Préparation du rapport de candidature au doctorat / Preparation of Ph.D. Candidacy Paper**

À la suite de la réussite à l'examen de synthèse, inscription requise de tous les candidats au doctorat jusqu'à ce que le projet de thèse soit accepté par le Comité consultatif. / Following completion of the comprehensive examination, registration required for all PhD candidates until the thesis proposal is accepted by the Advisory Committee.

**Volet / Course Component: **Recherche / Research

**MCG 9998 Examen général du doctorat / PhD Comprehensive**

Inscription requise de tous les candidats au doctorat jusqu'à la réussite à l'examen de synthèse. / Registration required for all PhD candidates until the comprehensive examination is passed.

**Volet / Course Component: **Recherche / Research

**MCG 9999 Thèse de doctorat / PhD Thesis**

**Volet / Course Component: **Recherche / Research