Bachelor of Engineering - Mechanical Systems Engineering
Course Overview
This accredited Bachelor of Engineering in Mechanical Systems Engineering (MSE) prepares you to become a licensed professional engineer by teaching you to design and integrate complex, computer-controlled mechanical systems. The program combines a powerful interdisciplinary curriculum in mechanical, industrial, and control engineering to solve modern automation challenges.
Key Program Highlights
- CEAB-accredited curriculum providing a direct path to becoming a licensed Professional Engineer (P.Eng.)
- Interdisciplinary focus merging mechanical, industrial, and control engineering principles
- Expertise in designing and automating integrated systems with robotics, actuators, and sensors
- Hands-on learning focused on real-world applications like automated manufacturing systems
- Develops the skills to manage the entire lifecycle of complex mechanical systems
Offer response
4 - 6 weeks after your application is submitted
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Course Overview
This accredited Bachelor of Engineering in Mechanical Systems Engineering (MSE) prepares you to become a licensed professional engineer by teaching you to design and integrate complex, computer-controlled mechanical systems. The program combines a powerful interdisciplinary curriculum in mechanical, industrial, and control engineering to solve modern automation challenges.
Key Program Highlights
- CEAB-accredited curriculum providing a direct path to becoming a licensed Professional Engineer (P.Eng.)
- Interdisciplinary focus merging mechanical, industrial, and control engineering principles
- Expertise in designing and automating integrated systems with robotics, actuators, and sensors
- Hands-on learning focused on real-world applications like automated manufacturing systems
- Develops the skills to manage the entire lifecycle of complex mechanical systems
Requirements
The requirements may vary based on your selected study options.
Modules
- Chemistry
- Conestoga 101
- Engineering Drawing Principles
- Foundation Module (Advanced Manufacturing)
- Material Removal Manufacturing Processes
- Calculus for Engineering
- Year 1 Project - A
- Physics - Mechanical
- Group Dynamics
- Scientific and Technical Communications
- Fluid Power and Mechanics
- Linear Algebra
- Materials Science
- Statics and Strength of Materials
- Year 1 Project - B
- Physics
- Co-op and Career Preparation
- Electrical and Electronic Foundations
- Advanced Calculus
- Dynamics
- Project Management, Methods and Tools
- Programming Fundamentals
- Manufacturing Processes
- Welding and Joining Manufacturing Processes
- Year 2 Project - A
- Year 2 Project - A (Welding)
- Electric Motors and Drives
- Analysis and Design of Mechanisms
- Numerical Methods
- Strength of Materials II
- Sensors and Instrumentation for Welding Automation
- Sensors, Actuators and Instrumentation
- Year 2 Project - B
- Year 2 Project - B (Welding)
- Co-op Work Term I (MSE)
- Co-op Work Term II (MSE)
- Design of Machine Elements I
- Differential Equations
- Fluid Mechanics
- Science, Technology and Society
- Industrial Engineering
- Metallurgy and Behaviour of Engineering Alloys
- Year 3 Project - A
- Year 3 Project - A (Welding)
- Microprocessors and Embedded Systems
- Artificial Intelligence
- Finite Element Analysis
- Digital Signal Processing
- Advanced Technical Elective I
- Advanced Technical Elective II
- Value Engineering and Life Cycle Costing
- Advanced Manufacturing Processes
- Composite Materials
- Operations Management
- Introduction to Welding
- Probability and Statistics
- Thermodynamics
- Introduction to Natural Sciences
- Control Systems
- Welding and Joining Design
- Design of Machine Elements II
- Welding and Joining Processes
- Year 3 Project - B
- Year 3 Project - B (Welding)
- Microprocessors and Embedded Systems
- Artificial Intelligence
- Digital Signal Processing
- Advanced Technical Elective I
- Advanced Technical Elective II
- Value Engineering and Life Cycle Costing
- Advanced Manufacturing Processes
- Composite Materials
- Operations Management
- Introduction to Welding
- Co-op Work Term III (MSE)
- Economics for Engineers
- Law, Ethics and Professional Practice
- Finite Element Analysis
- Finite Element Analysis for Welded Assemblies
- Manufacturing Systems
- Welding Metallurgy
- Year 4 Project - A
- Year 4 Project - A (Welding Capstone)
- Robotics
- Welding Automation and Robotics
- Advanced Technical Elective III
- Non-Destructive Evaluation A
- Microprocessors and Embedded Systems
- Artificial Intelligence
- Digital Signal Processing
- Advanced Technical Elective I
- Advanced Technical Elective II
- Value Engineering and Life Cycle Costing
- Advanced Manufacturing Processes
- Composite Materials
- Operations Management
- Introduction to Welding
- Financial and Managerial Accounting
- Business Fundamentals
- Topics in Management
- Sustainable and Concurrent Design
- Non-Destructive Evaluation B
- Year 4 Project - B
- Year 4 Project - B (Welding Capstone)
- Quality Assurance for Welding Processes
- Quality Assurance
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Offer response
4 - 6 weeks after your application is submitted
