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Mechanical Engineering MEng

Degree Requirements

The requirements described here are in addition to the general degree requirements for the Master/Magisteriate in Engineering (MEng) .

Fully-qualified candidates are required to complete a minimum of 45 credits.

Please see the Engineering Courses page for course descriptions and prerequisites.

Mechanical Engineering MEng (45 credits)

24

credits minimum chosen from courses listed below:

ENGR 6201 Fluid Mechanics (4.00)
ENGR 6261 The Finite Element Method in Computational Fluid Dynamics (4.00)
ENGR 6311 Vibrations in Machines and Structures (4.00)
ENGR 6411 Robotic Manipulators I: Mechanics (4.00)
MECH 6021 Design of Industrial Control Systems (4.00)
MECH 6111 Gas Dynamics (4.00)
MECH 6121 Aerodynamics (4.00)
MECH 6171 Turbomachinery and Propulsion (4.00)
MECH 6181 Heating, Air Conditioning and Ventilation (4.00)
MECH 6191 Combustion (4.00)
MECH 6431 Introduction to Tribology (Wear, Friction and Lubrication) (4.00)
MECH 6441 Stress Analysis in Mechanical Design (4.00)
MECH 6481 Aeroelasticity (4.00)
MECH 6501 Advanced Materials (4.00)
MECH 6511 Mechanical Forming of Metals (4.00)
MECH 6521 Manufacturing of Composites (4.00)
MECH 6541 Joining Processes and Nondestructive Testing (4.00)
MECH 6561 High Strength Materials (4.00)
MECH 6581 Mechanical Behaviour of Polymer Composite Materials (4.00)
MECH 6621 Microprocessors and Applications (4.00)
MECH 6631 Industrial Automation (4.00)
MECH 6751 Vehicle Dynamics (4.00)
MECH 6761 Vehicular Internal Combustion Engines (4.00)
  

                           
21

credits minimum chosen from the elective courses listed below:

 

Engineering and Computer Science Courses 

 

ENCS 6021 Engineering Analysis (4.00)
ENCS 6111 Numerical Methods (4.00)
ENCS 6161 Probability and Stochastic Processes (4.00)
ENCS 6191 Fuzzy Sets and Fuzzy Logic (4.00)
  

 

Mechanical, Industrial and Aerospace Engineering Courses

ENGR 6131 Linear Systems (4.00)
ENGR 6151 Continuum Mechanics (4.00)
ENGR 6161 Sensors and Actuators (4.00)
ENGR 6251 The Finite Difference Method in Computational Fluid Dynamics (4.00)
ENGR 6371 Micromechatronic Systems and Applications (4.00)
ENGR 6421 Standards, Regulations and Certification (4.00)
ENGR 6461 Avionic Navigation Systems (4.00)
ENGR 7331 Random Vibrations (4.00)
ENGR 7401 Robotic Manipulators II: Control (4.00)
ENGR 7461 Avionic Systems Design (4.00)
MECH 691 Topics in Mechanical Engineering I (4.00)
MECH 6051 Process Dynamics and Control (4.00)
MECH 6061 Analysis and Design of Hydraulic Control Systems (4.00)
MECH 6091 Flight Control Systems (4.00)
MECH 6101 Kinetic Theory of Gases (4.00)
MECH 6161 Gas Turbine Design (4.00)
MECH 6231 Helicopter Flight Dynamics (4.00)
MECH 6241 Operational Performance of Aircraft (4.00)
MECH 6251 Space Flight Mechanics and Propulsion Systems (4.00)
MECH 6321 Optimum Design of Mechanical Systems (4.00)
MECH 6341 Engineering Analysis of Smart Materials and Structures (4.00)
MECH 6421 Metal Machining and Surface Technology (4.00)
MECH 6451 Computer-Aided Mechanical Design (4.00)
MECH 6471 Aircraft Structures (4.00)
MECH 6491 Engineering Metrology and Measurement Systems (4.00)
MECH 6601 Testing and Evaluation of Polymer Composite Materials and Structures (4.00)
MECH 6611 Numerically Controlled Machines (4.00)
MECH 6641 Engineering Fracture Mechanics and Fatigue (4.00)
MECH 6691 Optical Microsystems (4.00)
MECH 6741 Mechatronics (4.00)
MECH 6791 Aircraft Hydro-Mechanical and Fuel Systems (4.00)
MECH 6941 Concurrent Engineering in Aerospace Systems (4.00)
MECH 7501 Design Using Composite Materials (4.00)
  

 

Project/Report (Prerequisite - Permission from Department is required)

 

 

 

ENGR 6971 Project and Report I (4.00)
ENGR 6981 Project and Report II (4.00)
ENGR 6991 Project and Report III (5.00)
 

 

ENGR 7011 Graduate Seminar in Mechanical and Industrial Engineering (1.00)
‌  or any 1-credit course within the GSPD 600  Professional Development Courses , or a course from Topic Area  E09 - Professional Leadership Skills

 

  

 

 

 

                       

Additional Notes:

  • Students cannot take any INSE courses for credit.
  • Students are allowed to take one  4-credit course outside the department (including Industrial Engineering courses) within the GCS. The student must obtain written approval from the department.
                        
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