Bachelor Degree in Mechanical Engineering (Mechatronics Engineering) drafted drafted

Program Overview

The Bachelor of Science in Mechanical Engineering (Mechatronics Engineering) equips students with the skills to design and implement advanced mechatronic systems. It combines mechanical engineering principles with electronics, computer, and electrical engineering, enabling graduates to work in various industries, including robotics, automotive, manufacturing, and healthcare, where they can solve complex technical problems and drive innovation.

Program Outline

Degree Overview:

• Description: Mechatronics refers to the efficient and effective integration of mechanical systems and electronics.
It is a blend of mechanics, electronics, computer, and electrical engineering. It involves the synergistic use of:
• Precision engineering
• Control theory and application
• Computer science
• Mathematics
• Sensor and actuator technology
• To design enhanced or "smart" products, processes, and systems.
• Objectives: The program aims to equip students with the knowledge and skills to design, develop, and implement mechatronic systems.
It emphasizes the integration of mechanical, electrical, and computer engineering principles.
• Future Prospects: The future of mechatronics is vast, with robotic systems and components already reaching nanoscale.
Researchers are exploring nano-technologies for implantation into the human body to repair or replace damaged physiological functions. The next two decades will see a surge in automated mechatronic systems, improving our quality of life and understanding of the world.

Outline:

• Program Structure: The program is structured into 10 terms, spanning a total of 180 credit hours.
• Course Schedule: The program is divided into terms, with specific courses offered in each term.
The course schedule is detailed below:
• *Term 1:**
• BA113 - Physics
• BA118 - Chemistry
• BA123 - Mathematics I
• CC111 - Introduction to Computers
• IM111 - Industrial Relations
• LH131 - ESP 1
• *Term 2:**
• BA124 - Mathematics II
• BA142 - Engineering Mechanics II
• CC112 - Structured Programming
• IM112 - Manufacturing Technology
• LH132 - ESP 2
• ME151 - Engineering Drawing and Projection
• BA114 - Physics II
• *Term 3:**
• BA223 - Mathematics III
• EE238 - Electric Engineering Fundamentals
• LH231 - Technical Report Writing
• ME232 - Thermodynamics (1)
• ME252 - Mechanical Engineering Drawing
• ME274 - Material Science
• *Term 4:**
• BA224 - Mathematics IV
• EE218 - Instrumentation & Measurements
• EE329 - Electrical Machines
• IM212 - Manufacturing Process 1
• ME 276 - Stress Analysis
• ME333 - Thermodynamics (2)
• *Term 5:**
• BA323 - Mathematics 5
• CC413 - Numerical Analysis
• ME241 - Experimental Methods
• ME355 - Theory of Machines
• ME356 - Machine Design (1)
• ME385 - Internal Combustion Engine
• *Term 6:**
• CC213 - Programming Applications
• CC442 - Digital Design & Intro.
to Microprocessor
• EC238 - Electronics I
• ME357 - Machine Design (2)
• ME362 - Fluid Mechanics I
• ME458 - Mechanical Vibrations
• *Term 7:**
• EC339 - Electronics (2)
• EE417 - Automatic Control Engineering
• IM423 - Operations Research
• ME431 - Heat Transfer
• ME464 - Hydraulic & Pneumatic Systems
• ME591 - Mechatronics
• *Term 8:**
• EC534 - Analog & Digital Signal Processing
• EE416 - Microcontroller Applications
• EE419 - Modern control Engineering
• ME455 - Computer aided design
• ME593 - Electromechanical Systems & Microprocessor Applications
• MEXXX - Elective A
• *Term 9:**
• ME 595 - Automation of Mechanical Systems
• ME501 - Project (1)
• ME592 - Mechatronics systems
• MEXXXB - Elective B
• NE264 - Scientific Thinking
• NE364 - Engineering Economy
• *Term 10:**
• IM535 - International Operations Management
• ME503 - Project (2)
• ME594 - Robotics applications
• MEXXXC - Elective C
• NE466 - Environmental Science & Technology
• BA118 - Chemistry: Introduces basic chemical concepts and their applications in engineering.
• BA123 - Mathematics I: Focuses on calculus, linear algebra, and differential equations.
• IM111 - Industrial Relations: Explores the relationship between labor and management.
• LH131 - ESP 1: Introduces English for Specific Purposes, focusing on technical communication.
• Term 2:
• BA124 - Mathematics II:
Continues the study of calculus and related topics.
• BA142 - Engineering Mechanics II: Covers advanced topics in dynamics and vibrations.
• CC112 - Structured Programming: Introduces programming concepts and techniques.
• IM112 - Manufacturing Technology: Explores various manufacturing processes and technologies.
• LH132 - ESP 2: Continues the development of technical communication skills.
• BA114 - Physics II: Covers advanced topics in physics, including electricity and magnetism.
• LH231 - Technical Report Writing: Focuses on writing technical reports and documentation.
• ME232 - Thermodynamics (1): Introduces the fundamental principles of thermodynamics.
• ME252 - Mechanical Engineering Drawing: Covers advanced topics in engineering drawing and design.
• ME274 - Material Science: Explores the properties and behavior of materials used in engineering.
• Term 4:
• BA224 - Mathematics IV:
Covers advanced mathematical concepts, including numerical methods and probability.
• EE218 - Instrumentation & Measurements: Introduces the principles of instrumentation and measurement techniques.
• EE329 - Electrical Machines: Covers the theory and operation of various electrical machines.
• IM212 - Manufacturing Process 1: Explores advanced manufacturing processes, including machining and welding.
• ME 276 - Stress Analysis: Covers the analysis of stresses and strains in mechanical components.
• ME333 - Thermodynamics (2): Covers advanced topics in thermodynamics, including heat transfer and power cycles.
• Term 5:
• BA323 - Mathematics 5:
Covers advanced mathematical concepts, including numerical analysis and optimization.
• CC413 - Numerical Analysis: Introduces numerical methods for solving engineering problems.
• ME241 - Experimental Methods: Covers experimental design and data analysis techniques.
• ME355 - Theory of Machines: Covers the kinematics and dynamics of mechanisms.
• ME356 - Machine Design (1): Introduces the principles of machine design and analysis.
• ME385 - Internal Combustion Engine: Covers the theory and operation of internal combustion engines.
• Term 6:
• CC213 - Programming Applications:
Covers advanced programming concepts and applications.
• **CC442 - Digital Design & Intro.
• to Microprocessor: Introduces digital logic design and microprocessor architecture.
• EC238 - Electronics I: Covers basic electronic circuits and devices.
• ME357 - Machine Design (2): Covers advanced topics in machine design, including fatigue and fracture analysis.
• ME458 - Mechanical Vibrations: Covers the theory and analysis of mechanical vibrations.
• Term 7:
• EC339 - Electronics (2):
Covers advanced electronic circuits and systems.
• EE417 - Automatic Control Engineering: Introduces the principles of automatic control systems.
• IM423 - Operations Research: Covers optimization techniques for solving engineering problems.
• ME431 - Heat Transfer: Covers the principles of heat transfer and its applications.
• ME464 - Hydraulic & Pneumatic Systems: Covers the design and operation of hydraulic and pneumatic systems.
• ME591 - Mechatronics: Introduces the principles of mechatronics and its applications.
• Term 8:
• EC534 - Analog & Digital Signal Processing:
Covers the principles of signal processing and its applications.
• EE416 - Microcontroller Applications: Covers the application of microcontrollers in mechatronic systems.
• EE419 - Modern control Engineering: Covers advanced topics in control engineering, including adaptive and robust control.
• ME455 - Computer aided design: Covers the use of computer-aided design software for mechanical design.
• ME593 - Electromechanical Systems & Microprocessor Applications: Covers the integration of electrical and mechanical systems using microprocessors.
• MEXXX - Elective A: Students can choose from a variety of elective courses related to their interests.
• Term 9:
• ME 595 - Automation of Mechanical Systems:
Covers the automation of mechanical systems using mechatronic principles.
• ME501 - Project (1): Students work on a research project related to mechatronics.
• ME592 - Mechatronics systems: Covers advanced topics in mechatronics, including robotics and automation.
• MEXXXB - Elective B: Students can choose from a variety of elective courses related to their interests.
• Term 10:
• IM535 - International Operations Management:
Covers the management of international operations and supply chains.
• ME503 - Project (2): Students continue working on their research project.
• ME594 - Robotics applications: Covers the application of robotics in mechatronic systems.
• MEXXXC - Elective C: Students can choose from a variety of elective courses related to their interests.
• NE466 - Environmental Science & Technology: Covers the environmental impact of engineering projects and sustainable design principles.
• Elective Courses:
• ME423 - Steam Plant Engineering
• ME434 - Refrigeration and Air Conditioning
• ME461 - Fluid Mechanics II
• ME481 - Automotive Technology
• ME554 - Optimum Design
• ME583 - Vehicle Control & safety Systems
• ME 465 - Computational Fluid Dynamics
• ME 520 - Thermal Plant Engineering
• ME 524 - Renewable Energy Resources
• ME 542 - Maintenance Planning
• ME 565 - Turbomachinery

Careers:

• Potential Career Paths: Graduates of the Bachelor Degree in Mechanical Engineering (Mechatronics Engineering) program can pursue careers in a wide range of industries, including:
• Automotive
• Aerospace
• Robotics
• Manufacturing
• Healthcare
• Energy
• Opportunities: Mechatronics engineers are in high demand due to the increasing automation and integration of technologies in various industries.
They can work as:
• Mechatronics Engineers
• Robotics Engineers
• Automation Engineers
• Control Systems Engineers
• Research and Development Engineers
• Outcomes: Graduates of the program will be equipped with the knowledge and skills to:
• Design, develop, and implement mechatronic systems
• Analyze and solve complex engineering problems
• Work effectively in teams
• Adapt to new technologies and challenges