Skip to main content

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)

16

credits minimum chosen from courses listed in one of the following specialization areas:

 Industrial Control Systems  

 Materials and Composites  

 Mechanical Systems 

 Thermofluids Engineering  
20

credits minimum chosen from the following Topic Areas:

 E01 - Mathematical Methods  

 E03 - Systems and Control  

 E04 - Fluid Mechanics‌ 

 E05 - Dynamics and Vibrations of Mechanical and Biomechanical Systems‌ 

 E06 - Structural Mechanics  

 E10 - Robotics  

 E11 - Aeronautics and Astronautics  

 E12 - Industrial Engineering  

 E51 - Industrial Control and Automation  

 E52 - Thermodynamics and Heat Transfer   

 E53 - Machine Design and Production  

 E54 - Materials Engineering and Processing  

 E56 - Ground Vehicle Dynamics   

 E57 - Composite Materials  

 E58 - Chemical Process Engineering  

MECH courses in E02 - Developments In Engineering  

 E63 - Project, Report And Industrial Training ( ENCS 6921 or any of  ENGR 6971,  ENGR 6981 and  ENGR 6991).

Students must obtain approval from the Aerospace Program Director for all the courses listed in topic area  E11 - Aeronautics and Astronautics. 

9

credits maximum of remaining credits chosen from:

 

ENGR 7011 Graduate Seminar in Mechanical and Industrial Engineering (1.00)
‌   

or courses chosen from other Topic Areas in the  Engineering Courses section. (The student must obtain written approval from the Department that offers the course). 

Industrial Control Systems

MECH 6021 Design of Industrial Control Systems (4.00)
MECH 6061 Analysis and Design of Hydraulic Control Systems (4.00)
MECH 6621 Microprocessors and Applications (4.00)
MECH 6631 Industrial Automation (4.00)
ENGR 6071 Switched and Hybrid Control Systems (4.00)
ENGR 6301 Advanced Dynamics (4.00)
ENGR 6411 Robotic Manipulators I: Mechanics (4.00)

Materials and Composites

MECH 6441 Stress Analysis in Mechanical Design (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)

Mechanical Systems

MECH 6431 Introduction to Tribology (Wear, Friction and Lubrication) (4.00)
MECH 6481 Aeroelasticity (4.00)
MECH 6751 Vehicle Dynamics (4.00)
MECH 6761 Vehicular Internal Combustion Engines (4.00)
MECH 7711 Handling and Stability of Road Vehicles (4.00)
ENGR 6301 Advanced Dynamics (4.00)
ENGR 6311 Vibrations in Machines and Structures (4.00)

Thermofluids Engineering

MECH 6111 Gas Dynamics (4.00)
MECH 6121 Aerodynamics (4.00)
MECH 6131 Conduction and Radiation Heat Transfer (4.00)
MECH 6171 Turbomachinery and Propulsion (4.00)
MECH 6181 Heating, Air Conditioning and Ventilation (4.00)
ENGR 6201 Fluid Mechanics (4.00)
ENGR 6261 The Finite Element Method in Computational Fluid Dynamics (4.00)

Back to top

© Concordia University