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View our Virtual tourCourses - September 2023
Level 1
Course details
College Reading & Writing Skills
COMM1085
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Excel for Engineering Technology
COMP1347
- Hours: 14
- Credits: 1
- Pre-Requisites:
- CoRequisites:
Conestoga 101
CON0101
- Hours: 1
- Credits: 0
- Pre-Requisites:
- CoRequisites:
Electrical Fundamentals
EECE1475
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Mathematics I
MATH1085
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Engineering Drawing I
MECH1050
In this course, both freehand drawing and computer-aided drawing techniques (using AutoCAD) are used to introduce the student to Mechanical Engineering drawings. The material covered will include orthographic representations and projection, auxiliary views, sections, dimensioning and isometric drawing. During the course, the student will create detail, working, and assembly drawings conforming to CSA/ANSI standards.
- Hours: 84
- Credits: 6
- Pre-Requisites:
- CoRequisites:
Engineering Materials
MECH1130
- Hours: 70
- Credits: 5
- Pre-Requisites:
- CoRequisites:
Introduction to Structured Programming
PROG1125
This introductory course will enable students to learn computer software fundamentals via a hands-on approach to writing computer programs in Microsoft Windows environments. The course will cover techniques such as: user interfaces, event handling, data storage, data manipulation, decision making, code repetition, and data structures. Students will employ a variety of strategies as they develop and troubleshoot their programs
- Hours: 28
- Credits: 2
- Pre-Requisites:
- CoRequisites:
Level 2
Course details
Introduction to Geometric Dimensioning and Tolerancing
DRWG1405
- Hours: 28
- Credits: 2
- Pre-Requisites: MECH1050
- CoRequisites:
Introduction to Fluid Power and Automation
IFME1020
This course introduces the students to the field of industrial fluid power and control. Students will learn fluid power terminology, component sizing and selection methods, circuit design and documentation. Students will understand the fundamental principles as well as the practical applications of fluid power as it applies to industry. In the lab, students are required to design and build a variety of circuits using a combination of hydraulic, pneumatic and electrical components. The hands-on approach provides an excellent learning environment with a significant focus on trouble-shooting and problem solving.
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Conventional Machining Processes
MACH1010
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Mathematics II
MATH1195
- Hours: 42
- Credits: 3
- Pre-Requisites: MATH1085
- CoRequisites:
Engineering Drawing II
MECH1065
- Hours: 56
- Credits: 4
- Pre-Requisites: MECH1050
- CoRequisites:
Applied Mechanics
MECH1220
- Hours: 70
- Credits: 5
- Pre-Requisites: MATH1085
- CoRequisites:
PLC and HMI Programming
PROG1095
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Level 3
Course details
Advanced Solid Modeling
DRWG2220
- Hours: 42
- Credits: 3
- Pre-Requisites: MECH1065
- CoRequisites:
Design of Jigs and Fixtures
DSGN2100
When successfully completed, the learner will be able to understand the concept and operating principles of Jigs and Fixtures. The student will evaluate the efficient method of machining a workpiece in correct sequence to obtain proper surface and geometric relationships. The student will be able to utilize various locational, clamping, indexing and tool guiding devices as used on Jigs and Fixtures, for the successful design of metal machining, fabricating and component inspection operations. The student will be able to recognize and utilize materials and standard catalogued components to create efficient Jig and Fixture designs. The student will evaluate the benefits of additive manufacturing, how it can save time and money for inspection, assembly and other jigs and fixtures.
- Hours: 56
- Credits: 4
- Pre-Requisites: MECH1065
- CoRequisites:
Design for Manufacturing and Assembly
DSGN2290
- Hours: 42
- Credits: 3
- Pre-Requisites: MECH1065
- CoRequisites:
Manufacturing Processes
MANU2070
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
CNC Programming/2DMasterCAM
MECH2010
- Hours: 56
- Credits: 4
- Pre-Requisites: MACH1010
- CoRequisites:
Mechanics of Materials
MECH2030
- Hours: 56
- Credits: 4
- Pre-Requisites: MECH1130 AND MECH1220
- CoRequisites:
Student must pass 1 Course(s), selected in the Student Portal from available course options
Level 4
Course details
Dimensional Metrology and Coordinate Measuring Machines
DIMM2010
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Additive and Advanced Manufacturing
MANU2060
- Hours: 42
- Credits: 3
- Pre-Requisites: MECH1065
- CoRequisites:
Tool and Die Design
MECH2050
- Hours: 56
- Credits: 4
- Pre-Requisites: DSGN2100
- CoRequisites:
CNC Graphics and MasterCAM 3D
MECH2060
- Hours: 56
- Credits: 4
- Pre-Requisites: MECH2010
- CoRequisites:
Quality Assurance and Systems
QUAL2010
The course will provide an understanding of concepts, applications and practical skills on quality engineering and management. Topics covered include: History of Quality, seven basic statistical control tools (Cause and Effect, Pareto Analysis, Histogram, Scatter Plot, Xbar-R charts, Attribute Charts, GRR Analysis), mathematical development of grouped sigma vs. trial sigma, Developing Control Limits, Confidence Limits & Percentage out of specification, Chart trend analysis, Statistical sampling plans (MIL STD 105), ISO 9001, DOE (Design of Experiment), FMEA (Failure Mode Effect Analysis), Introduction to GD&T (Geometric dimensioning and tolerancing), Application of Excel in QA, MINITAB 16 Introduction, OC Curve (Understanding Probability) Probability Inference on Capability (Chi-Square Analysis), ANNOVA (Analysis of Variance) Regression Analysis (Linear vs. Logarithmic). The course has five major assignments, midterm exam and final exam. The course will use examples from automotive, aerospace, sports, business and medicine to illustrate concepts. Textbook is not required since concepts, applications and analysis techniques will be included from Dr. Deming, Dr. Juran, Dr. Ishikawa, Dr. Besterfield, Dr. Gryna, Dr. Starbird, Dr. Doty and Forrest E. Breyfogle.
- Hours: 42
- Credits: 3
- Pre-Requisites: MATH1085
- CoRequisites:
Introduction to Robotics
ROBO2010
- Hours: 56
- Credits: 4
- Pre-Requisites: PROG1125 OR PROG1395 OR PROG2170
- CoRequisites:
Level 5
Course details
Engineering Economics
ECON1041
Contemporary engineering professionals are widely recognized as principal decision makers who have to decide among alternatives with respect to expected costs and benefits, while taking into account strategic and policy issues affecting their corporations. The course is based on a thorough understanding of the concepts of the time value of money, cash flow analysis, present and future worth analyses, depreciation and financial accounting, effects of inflation, income taxes and marketing goals.
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Industrial Engineering and Time Study
IENG3005
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Manufacturing Project and Report - A
MECH3210
- Hours: 56
- Credits: 4
- Pre-Requisites: DSGN2100 AND MECH2010 AND MECH2060
- CoRequisites:
Student must pass 1 Course(s), selected in the Student Portal from available course options
Level 6
Course details
Computer Integrated Manufacturing (CIM)
MANU3030
- Hours: 42
- Credits: 3
- Pre-Requisites: QUAL2010
- CoRequisites:
Safety Circuits and Standards
MECH2145
- Hours: 56
- Credits: 4
- Pre-Requisites: EECE1475 OR EECE2330
- CoRequisites:
Manufacturing Project and Report - B
MECH3220
This is the second half of a two-term manufacturing project. This project will simulate as nearly as possible the manufacturing technologist’s activities.
Students will complete a major manufacturing project started the term prior. Strong emphasis is placed on students’ ability to communicate through a comprehensive report, including complete drawings of tooling and fixtures, numerical control programs, plant layout, and costs required to manufacture their project components.
- Hours: 56
- Credits: 4
- Pre-Requisites: IENG3000 OR IENG3005 AND MECH3210
- CoRequisites:
Robotics And Electrical Control
ROBO3030
- Hours: 84
- Credits: 6
- Pre-Requisites: ROBO2010
- CoRequisites:
Student must pass 1 Course(s), selected in the Student Portal from available course options
Level 1
Course details
College Reading & Writing Skills
COMM1085
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Excel for Engineering Technology
COMP1347
- Hours: 14
- Credits: 1
- Pre-Requisites:
- CoRequisites:
Conestoga 101
CON0101
- Hours: 1
- Credits: 0
- Pre-Requisites:
- CoRequisites:
Electrical Fundamentals
EECE1475
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Mathematics I
MATH1085
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Engineering Drawing I
MECH1050
In this course, both freehand drawing and computer-aided drawing techniques (using AutoCAD) are used to introduce the student to Mechanical Engineering drawings. The material covered will include orthographic representations and projection, auxiliary views, sections, dimensioning and isometric drawing. During the course, the student will create detail, working, and assembly drawings conforming to CSA/ANSI standards.
- Hours: 84
- Credits: 6
- Pre-Requisites:
- CoRequisites:
Engineering Materials
MECH1130
- Hours: 70
- Credits: 5
- Pre-Requisites:
- CoRequisites:
Introduction to Structured Programming
PROG1125
This introductory course will enable students to learn computer software fundamentals via a hands-on approach to writing computer programs in Microsoft Windows environments. The course will cover techniques such as: user interfaces, event handling, data storage, data manipulation, decision making, code repetition, and data structures. Students will employ a variety of strategies as they develop and troubleshoot their programs
- Hours: 28
- Credits: 2
- Pre-Requisites:
- CoRequisites:
Level 2
Course details
Co-op and Career Preparation
CEPR1020
- Hours: 14
- Credits: 1
- Pre-Requisites:
- CoRequisites:
Introduction to Geometric Dimensioning and Tolerancing
DRWG1405
- Hours: 28
- Credits: 2
- Pre-Requisites: MECH1050
- CoRequisites:
Introduction to Fluid Power and Automation
IFME1020
This course introduces the students to the field of industrial fluid power and control. Students will learn fluid power terminology, component sizing and selection methods, circuit design and documentation. Students will understand the fundamental principles as well as the practical applications of fluid power as it applies to industry. In the lab, students are required to design and build a variety of circuits using a combination of hydraulic, pneumatic and electrical components. The hands-on approach provides an excellent learning environment with a significant focus on trouble-shooting and problem solving.
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Conventional Machining Processes
MACH1010
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Mathematics II
MATH1195
- Hours: 42
- Credits: 3
- Pre-Requisites: MATH1085
- CoRequisites:
Engineering Drawing II
MECH1065
- Hours: 56
- Credits: 4
- Pre-Requisites: MECH1050
- CoRequisites:
Applied Mechanics
MECH1220
- Hours: 70
- Credits: 5
- Pre-Requisites: MATH1085
- CoRequisites:
PLC and HMI Programming
PROG1095
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Level 3
Course details
Co-op Work Term I (Automated Manufacturing Technology)
COOP1400
- Hours: 420
- Credits: 14
- Pre-Requisites: CDEV1020 OR CEPR1020
- CoRequisites:
Level 4
Course details
Advanced Solid Modeling
DRWG2220
- Hours: 42
- Credits: 3
- Pre-Requisites: MECH1065
- CoRequisites:
Design of Jigs and Fixtures
DSGN2100
When successfully completed, the learner will be able to understand the concept and operating principles of Jigs and Fixtures. The student will evaluate the efficient method of machining a workpiece in correct sequence to obtain proper surface and geometric relationships. The student will be able to utilize various locational, clamping, indexing and tool guiding devices as used on Jigs and Fixtures, for the successful design of metal machining, fabricating and component inspection operations. The student will be able to recognize and utilize materials and standard catalogued components to create efficient Jig and Fixture designs. The student will evaluate the benefits of additive manufacturing, how it can save time and money for inspection, assembly and other jigs and fixtures.
- Hours: 56
- Credits: 4
- Pre-Requisites: MECH1065
- CoRequisites:
Design for Manufacturing and Assembly
DSGN2290
- Hours: 42
- Credits: 3
- Pre-Requisites: MECH1065
- CoRequisites:
Manufacturing Processes
MANU2070
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
CNC Programming/2DMasterCAM
MECH2010
- Hours: 56
- Credits: 4
- Pre-Requisites: MACH1010
- CoRequisites:
Mechanics of Materials
MECH2030
- Hours: 56
- Credits: 4
- Pre-Requisites: MECH1130 AND MECH1220
- CoRequisites:
Student must pass 1 Course(s), selected in the Student Portal from available course options
Level 5
Course details
Co-op Work Term II (Automated Manufacturing - Technology)
COOP2400
- Hours: 420
- Credits: 14
- Pre-Requisites: CDEV1020 OR CEPR1020
- CoRequisites:
Level 6
Course details
Dimensional Metrology and Coordinate Measuring Machines
DIMM2010
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Additive and Advanced Manufacturing
MANU2060
- Hours: 42
- Credits: 3
- Pre-Requisites: MECH1065
- CoRequisites:
Tool and Die Design
MECH2050
- Hours: 56
- Credits: 4
- Pre-Requisites: DSGN2100
- CoRequisites:
CNC Graphics and MasterCAM 3D
MECH2060
- Hours: 56
- Credits: 4
- Pre-Requisites: MECH2010
- CoRequisites:
Quality Assurance and Systems
QUAL2010
The course will provide an understanding of concepts, applications and practical skills on quality engineering and management. Topics covered include: History of Quality, seven basic statistical control tools (Cause and Effect, Pareto Analysis, Histogram, Scatter Plot, Xbar-R charts, Attribute Charts, GRR Analysis), mathematical development of grouped sigma vs. trial sigma, Developing Control Limits, Confidence Limits & Percentage out of specification, Chart trend analysis, Statistical sampling plans (MIL STD 105), ISO 9001, DOE (Design of Experiment), FMEA (Failure Mode Effect Analysis), Introduction to GD&T (Geometric dimensioning and tolerancing), Application of Excel in QA, MINITAB 16 Introduction, OC Curve (Understanding Probability) Probability Inference on Capability (Chi-Square Analysis), ANNOVA (Analysis of Variance) Regression Analysis (Linear vs. Logarithmic). The course has five major assignments, midterm exam and final exam. The course will use examples from automotive, aerospace, sports, business and medicine to illustrate concepts. Textbook is not required since concepts, applications and analysis techniques will be included from Dr. Deming, Dr. Juran, Dr. Ishikawa, Dr. Besterfield, Dr. Gryna, Dr. Starbird, Dr. Doty and Forrest E. Breyfogle.
- Hours: 42
- Credits: 3
- Pre-Requisites: MATH1085
- CoRequisites:
Introduction to Robotics
ROBO2010
- Hours: 56
- Credits: 4
- Pre-Requisites: PROG1125 OR PROG1395 OR PROG2170
- CoRequisites:
Level 7
Course details
Co-op Work Term III (Automated Manufacturing - Technology)
COOP3400
- Hours: 420
- Credits: 14
- Pre-Requisites: CDEV1020 OR CEPR1020
- CoRequisites:
Level 8
Course details
Engineering Economics
ECON1041
Contemporary engineering professionals are widely recognized as principal decision makers who have to decide among alternatives with respect to expected costs and benefits, while taking into account strategic and policy issues affecting their corporations. The course is based on a thorough understanding of the concepts of the time value of money, cash flow analysis, present and future worth analyses, depreciation and financial accounting, effects of inflation, income taxes and marketing goals.
- Hours: 42
- Credits: 3
- Pre-Requisites:
- CoRequisites:
Industrial Engineering and Time Study
IENG3005
- Hours: 56
- Credits: 4
- Pre-Requisites:
- CoRequisites:
Manufacturing Project and Report - A
MECH3210
- Hours: 56
- Credits: 4
- Pre-Requisites: DSGN2100 AND MECH2010 AND MECH2060
- CoRequisites:
Student must pass 1 Course(s), selected in the Student Portal from available course options
Level 9
Course details
Computer Integrated Manufacturing (CIM)
MANU3030
- Hours: 42
- Credits: 3
- Pre-Requisites: QUAL2010
- CoRequisites:
Safety Circuits and Standards
MECH2145
- Hours: 56
- Credits: 4
- Pre-Requisites: EECE1475 OR EECE2330
- CoRequisites:
Manufacturing Project and Report - B
MECH3220
This is the second half of a two-term manufacturing project. This project will simulate as nearly as possible the manufacturing technologist’s activities.
Students will complete a major manufacturing project started the term prior. Strong emphasis is placed on students’ ability to communicate through a comprehensive report, including complete drawings of tooling and fixtures, numerical control programs, plant layout, and costs required to manufacture their project components.
- Hours: 56
- Credits: 4
- Pre-Requisites: IENG3000 OR IENG3005 AND MECH3210
- CoRequisites:
Robotics And Electrical Control
ROBO3030
- Hours: 84
- Credits: 6
- Pre-Requisites: ROBO2010
- CoRequisites:
Student must pass 1 Course(s), selected in the Student Portal from available course options
Program outcomes
- Monitor compliance with current legislation, standards, regulations and guidelines.
- Plan, co-ordinate, implement and evaluate quality control and quality assurance procedures to meet organizational standards and requirements.
- Monitor and encourage compliance with current health and safety legislation, as well as organizational practices and procedures.
- Develop and apply sustainability* best practices in workplaces.
- Use current and emerging technologies* to implement mechanical engineering projects.
- Analyze and solve complex mechanical problems by applying mathematics and fundamentals of mechanical engineering
- Prepare, analyze, evaluate and modify mechanical engineering drawings and other related technical documents.
- Design and analyze mechanical components, processes and systems by applying fundamentals of mechanical engineering.
- Design, manufacture and maintain mechanical components according to required specifications.
- Establish and verify the specifications of materials, processes and operations for the design and production of mechanical components.
- Plan, implement and evaluate projects by applying project management principles.
- Develop strategies for ongoing personal and professional development to enhance work performance.
- Apply business principles to design and engineering practices.
- Apply manual, CNC, and computer-aided manufacturing techniques in planning and controlling manufacturing systems