Mechanical Engineering

In this program you’ll explore clean energy systems and renewable technologies. You’ll study these systems:

• automotive
• aerospace
• marine
• robotic

Potential careers

What can you do with a mechanical engineering degree? Here are a few jobs that relate to the program:

• project engineer
• component engineer
• manufacturing engineer
• automotive engineer
• plastics engineer
• project manager
• aeronautical engineer
• marine engineer
• robotics engineer
• safety engineer
• intelligence developer
• systems designer
• entrepreneur
• researcher
• program administrator

Some of these roles may require post-graduate studies or training. 

Find a career that fits you

• Explore your career options at an appointment with a career educator.
• Attend career development workshops as you search for work.
• Enrol in the Your Career Starts Here course to generate career ideas and plan your next steps.

Experience & connections

Opportunities in the mechanical engineering program

• With the Co-op Program you can alternate study with paid work. 

Opportunities outside your program

• With a work study position you can develop skills during your study term.
• Volunteering is a great way to give back to your community while you build skills.

Networks you can connect to

Here are a few professional associations related to mechanical engineering:

• Engineers Canada
• Association of Consulting Engineering Companies of Canada 

Hands-on learning opportunities

These courses in the mechanical engineering program offer extensive hands-on learning.

Co-op

Co-op work terms     
Alternate academic study with paid work terms to gain workplace experience

Course-based

MECH 458 - Mechatronics                   
Explore mechatronics by engaging with an industry guest speaker

MECH 497 - Green Vehicle Technology Project        
Explore course content by engaging with an industry guest speaker

Creative or design project       

ENGR 110 - Design and Communication I
ENGR 120 - Design and Communication II                 
Gain skills with practical projects and engage with industry experts

MECH 200 - Engineering Drawing, CAD and Manufacturing
Do a design project and produce standard engineering drawings

MECH 335 - Theory of Mechanisms  
Design and analyze a mechanism, such as a child’s crank toy automaton

MECH 350 - Engineering Design                      
Complete engineering design projects in teams

MECH 400 - Capstone Design Project
Complete an engineering design project and report results

MECH 450A - Special Topics
MECH 450B - Special Topics
MECH 450C - Special Topics
MECH 450D - Special Topics
MECH 450E - Special Topics
MECH 450F – Special Topics
(variable topic courses)            
Produce a design project 

MECH 458 - Mechatronics
Design a mechatronics system, such as a conveyor belt system

MECH 493 - Design of Thermo-Fluid Systems
Work in teams to design a thermo-fluidic system, such as a heat recovery system

MECH 498 - Honours Thesis 
Research, write and orally defend a graduating honours design or research project

Lab      

MECH 150 - 3D Printing, Rapid Prototyping and Design
Gain experience with 3D printing and rapid prototyping technologies

Professional and technical skill development            

ENGR 110 - Design and Communication I
ENGR 120 - Design and Communication II
Develop writing and presentation skills

ENGR 130 - Introduction to Professional Practice
Gain skills such as résumé writing and career development

ENGR 446 - Technical Report
Write a major technical report 

Research project         

MECH 497 - Green Vehicle Technology Project
Research green vehicle technology design and orally present findings

MECH 498 - Honours Thesis               
Research, write and orally defend a graduating honours design or research project

ENGR 499 - Technical Project             
Conduct and present independent research on a technical project

These courses are not always offered as described.

What you'll learn

Every student at UVic builds skills all employers look for. At UVic Co-op & Career we call these  "competencies". This is what you’ll learn in the mechanical engineering program.

Professional practice

• focus on the safety, health and welfare of the public
• focus on environmental protection
• promote health and safety in the workplace
• take on professional assignments only when qualified
• maintain confidentiality and avoid a conflict of interest
• keep informed to maintain competence
• act with fairness, courtesy and good faith toward clients, colleagues and others
• extend public knowledge and appreciation of engineering

Reliability, safety and failure analysis

• understand quality assurance standards and testing procedures
• ensure that systems or components perform their required function
• maintain a current knowledge of safety standards
• establish the mean time between failures when assessing reliability

Design

• gather full requirements for a project
• understand the client’s needs
• model a solution using the appropriate tools
• communicate the design process to the client
• use safe and effective designs
• understand how a design integrates into its environment

 Engineering tools

• design equipment and systems using a variety of software packages
• simulate mechanical and electronic systems using the appropriate tools
• analyze systems, equipment and data using the correct tools
• operate mechanical equipment in a lab or workshop
• use electronics and electrical equipment
• develop software and scripts in a variety of environments and languages
• use computer software and systems
• understand and use databases 
• research and recommend new tools where existing tools are inadequate
• choose tools based on their strengths and weaknesses

Engineering knowledge

• understand the mathematical fundamentals of engineering
• use the correct statistical methods to analyze and investigate data
• understand the natural sciences for their discipline of engineering
• understand engineering fundamentals
• understand engineering economics
• understand how engineering specifics integrate into a larger project
• study related subjects to help a project’s success

Materials

• understand the property differences between materials
• determine project needs by considering the characteristics of materials
• estimate requirements
• optimize performance using best practices in material extraction and processing
• manage the recovery, reuse, recycling or disposal of materials
• take part in material research and development

Structures and machines; statics and dynamics

• use the fundamentals of statics and dynamics to solve engineering problems
• consider force, torque, stress and strain in the design process
• determine the safe operating limits for structures or machines
• work with trusses, cranes, hoists, gear units and ratios
• take part in the research and development of structures and equipment

Advanced thermodynamics and fluids

• use math to solve thermodynamic engineering problems
• understand the science of fluid dynamics
• design fluid movement systems
• choose the appropriate pump for the application
• design heat transfer systems
• take part in the research and development of new heat transfer

 Power and energy systems

• apply the fundamental science associated with electricity
• understand the generation, transmission, distribution and processing of energy
• consider the characteristics of an energy system in requirements gathering
• improve energy usage with alternative systems
• outline the fault-tolerant, reliable operation of power systems
• research and develop new energy systems

Control theory and systems

• apply the fundamentals of control theory in the design of dynamic systems
• understand feedback control systems
• Identify design specifications
• assess system performance
• use a control system using feedback circuits
• understand processors and microcontrollers

What's next?