Program Overview

  • Duration

    3 Months (Self-Paced) Program

    Can be done in 6 months

  • Total Courses

    01

  • Total Credit Hours

    6

The Mechanical Engineering program equips students with the knowledge and skills to design, analyze, and manufacture mechanical systems. Students explore areas such as thermodynamics, materials science, and mechanical design. Graduates are well-prepared to work in industries ranging from automotive and robotics to energy and manufacturing, contributing to the development of mechanical innovations.

ENGINEERING FUNDAMENTALS AND TECHNICAL PROFICIENCY:

The College of Engineering is designed to establish a strong foundation in engineering fundamentals and technical proficiency. Students start by building a deep understanding of core engineering disciplines and gain hands-on experience in problem-solving and innovation. This technical base prepares students for a successful career in the dynamic field of engineering.


REAL-WORLD APPLICATIONS AND INDUSTRY PARTNERSHIPS:

Beyond the classroom, our College of Engineering places a significant emphasis on real-world applications and industry partnerships. Students have opportunities to work on engineering projects, collaborate with engineering firms, and engage in research with cutting-edge technology. These experiences not only enhance their practical engineering skills but also provide valuable insights into the industry.


GLOBAL ENGINEERING CHALLENGES AND INTERNATIONAL COLLABORATIONS:

The College of Engineering at Hudson Bay University is committed to addressing global engineering challenges and fostering international collaborations. Our curriculum explores international engineering practices and encourages students to engage in projects with global impact. Additionally, we offer study abroad programs and collaborate with engineers from around the world, enabling students to gain a global perspective on engineering.

Study mechanical systems and software, emphasizing the integration of software and hardware in mechanical engineering. Analyze the application of software tools in mechanical design and analysis.


Advance your understanding of mechanics of materials, covering advanced topics in material behavior, deformation, and failure analysis. Analyze complex loading conditions and material properties.


Explore heat and mass transfer, focusing on the principles of energy transfer and the movement of mass in engineering systems. Analyze heat exchangers, conduction, convection, and diffusion.


Study advanced machine design, emphasizing the design and analysis of mechanical systems. Analyze engineering materials, stress analysis, and machine components.


Study mechatronics, an interdisciplinary field combining mechanical engineering, electronics, and computer science. Learn about the design and control of mechatronic systems, automation, and the integration of mechanical and electronic components.

Cost of Attendance

Tuition Fee Breakdown Cost
GRADUATE COURSE CERTIFICATE IN ENGINEERING $1,560
Medical Insurance $0.00
Personal Expenses $0.00
Study Materials $0.00
Food Cost $0.00
Total Tuition Fee $1,560
WHERE AFFORDABILITY

Meets Opportunity

At Hudson Bay University, we believe in where affordability meets opportunity. Our commitment to accessible education ensures that quality learning doesn't come with a hefty price tag. We open the doors to knowledge, offering students the chance to thrive without the burden of overwhelming tuition fees, empowering them for a brighter future.

Our Eligibility Criteria

Explore HBU’s Eligibility Criteria for Students Worldwide

Eligibility Criteria

Bachelor's degree, or equiv. International Education

Credit Hours

6

Course Duration

3 Months (Self-Paced) Program

Courses Offered

01

Mechanical Systems And Software (MEE-024)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Mechatronics
     Tasks
     State Transition Logic
     Direct Realization Of System Control Software
  In Section 2 of this course you will cover these topics:
     Software Realization In C++
     Intertask Communication
     Timing Techniques On Pc Compatibles
  In Section 3 of this course you will cover these topics:
     Multitasking: Performance In The Real World
     A Character-Based Operator Interface
     Graphical Operator Interfaces
  In Section 4 of this course you will cover these topics:
     Distributed Control I: Net Basics
     Distributed Control Ii: A Mechatronics Control Application Layer
     Java For Control System Software
  In Section 5 of this course you will cover these topics:
     Programmable Logic Controllers (Plcs)
     Illustrative Example: Assembly System
     The Gluing Cell Exercise In Tranrunj

Advanced Mechanics Of Materials (MEE-105)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Introduction To Materials Management
     Production Planning System
     Master Scheduling
     Material Requirements Planning
  In Section 2 of this course you will cover these topics:
     Capacity Management
     Production Activity Control
     Purchasing
  In Section 3 of this course you will cover these topics:
     Forecasting
     Inventory
     Order Quantities
  In Section 4 of this course you will cover these topics:
     Production Planning System
     Physical Inventory And Warehouse Management
     Production Planning System
  In Section 5 of this course you will cover these topics:
     Products And Processes
     Just-In-Time Manufacturing And Lean Production
     Total Quality Management

Heat And Mass Transfer (MEE-140)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Introduction
     Heat Conduction: One Dimensional Applications
  In Section 2 of this course you will cover these topics:
     Multidimensional Steady Conduction.
     Principles Of Convection
  In Section 3 of this course you will cover these topics:
     Forced Convection
     Free Convection
  In Section 4 of this course you will cover these topics:
     Radiation
     Introduction To Engineering Design
  In Section 5 of this course you will cover these topics:
     Heat Exchangers

Advanced Machine Design (MEE-249)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Introduction To Mechanical Design
     Materials
     Load And Stress Analysis
     Deflection And Stiffness
  In Section 2 of this course you will cover these topics:
     Failures Resulting From Static Loading
     Failure Resulting From Variable Loading
     Shafts And Axles                           
     Screws, Fasteners, And The Design Of Nonpermanent Joints
  In Section 3 of this course you will cover these topics:
     Welding, Brazing, Bonding, And The Design Of Permanent Joints
     Mechanical Springs
     Rolling-Contact Bearings
     Lubrication And Journal Bearings
  In Section 4 of this course you will cover these topics:
     Gears - General
     Spur And Helical Gears
     Bevel And Worm Gears
     Clutches, Brakes, Couplings And Flywheels
  In Section 5 of this course you will cover these topics:
     Flexible Mechanical Elements
     Power Transmission Case Study
     Finite-Element Analysis
     Statistical Considerations

Mechatronics (MEE-862)

TOPICS COVERED IN THIS COURSE
  In Section 1 of this course you will cover these topics:
     Mechatronics
     Sensors And Transducers
     Signal Conditioning
     Data Presentation Systems
     Pneumatic And Hydraulic Systems
  In Section 2 of this course you will cover these topics:
     Mechanical Actuation Systems
     Electrical Actuation Systems
     Basic System Models
     Dynamic Responses Of Systems
  In Section 3 of this course you will cover these topics:
     System Transfer Functions
     Frequency Response
     Closed-Loop Controllers
     Digital Logic
  In Section 4 of this course you will cover these topics:
     Microprocessors
     Assembly Language
     C Language
     Input/Output Systems
  In Section 5 of this course you will cover these topics:
     Programmable Logic Controllers
     Communication Systems
     Fault Finding
     Mechatronics Systems