*Year 1: Foundations* 

*Semester 1* 

- *Calculus I* (4cr): Limits, derivatives, integrals. 

- *Physics I* (3cr): Mechanics, kinematics. 

- *Introduction to Mechanical Engineering* (2cr): Career overview, ethics, tools. 

- *Chemistry for Engineers* (3cr): Material properties, reactions. 

- *Technical Drawing & CAD* (3cr): AutoCAD/SolidWorks basics. 

- *Workshop Practice* (1cr): Machining, safety. 

 

*Semester 2* 

- *Calculus II* (4cr): Multivariable calculus. 

- *Programming for Engineers* (3cr): Python/MatLAB. 

- *Materials Science* (3cr): Metals, polymers, composites. 

- *Statics* (3cr): Force analysis, equilibrium. 

- *Communication Skills* (2cr): Technical writing/presentations. 

 

*Year 2: Core Principles* 

*Semester 3* 

- *Differential Equations* (3cr): ODEs, PDEs. 

- *Dynamics* (3cr): Motion, energy, momentum. 

- *Thermodynamics I* (3cr): Laws, cycles. 

- *Fluid Mechanics* (3cr): Flow, Bernoulli’s equation. 

- *Manufacturing Processes* (3cr): Casting, machining, additive manufacturing. 

 

*Semester 4* 

- *Linear Algebra* (3cr): Matrices, vector spaces. 

- *Mechanics of Materials* (3cr): Stress, strain, deformation. 

- *Machine Design I* (3cr): Stress analysis, failure theories. 

- *Electrical Circuits* (3cr): Basics, motors. 

- *Social Science Elective* (3cr): Economics/sociology. 

 

*Year 3: Advanced Topics* 

*Semester 5* 

- *Heat Transfer* (3cr): Conduction, convection, radiation. 

- *Control Systems* (3cr): Feedback, PID, robotics. 

- *Machine Design II* (3cr): Gears, bearings, CAD projects. 

- *Numerical Methods* (3cr): Computational modelling. 

- *Thermodynamics Lab* (1cr): Experiments, data analysis. 

 

*Semester 6* 

- *Vibrations* (3cr): Damped systems, resonance. 

- *Advanced Thermodynamics* (3cr): Refrigeration, combustion. 

- *Elective I* (3cr): E.g., Renewable Energy. 

- *Fluid Mechanics Lab* (1cr): Flow measurement. 

- *Engineering Economics* (3cr): Cost analysis, ROI. 

 

*Year 4: Specialization & Capstone* 

*Semester 7* 

- *Capstone Project I* (4cr): Industry-sponsored design. 

- *Elective II* (3cr): E.g., Finite Element Analysis. 

- *Elective III* (3cr): E.g., Robotics. 

- *Professional Ethics* (2cr): Case studies, sustainability. 

 

*Semester 8* 

- *Capstone Project II* (4cr): Prototyping, testing. 

- *Elective IV* (3cr): E.g., HVAC. 

- *Elective V* (3cr): E.g., Automotive Engineering. 

- *Internship* (3cr): Industry experience (optional). 

 

*Elective Options* 

- Automotive Systems 

- Aerospace Engineering 

- Mechatronics 

- Composite Materials 

- Energy Systems (Renewables) 

- HVAC & Refrigeration 

- Robotics & Automation 

 

*Labs & Practical Work* 

- *Labs*: Integrated with core courses (1–2cr each). 

- *Software Tools*: ANSYS (FEA), MATLAB/Simulink, SolidWorks. 

 

*General Education* 

- *Humanities/Social Sciences*: 12cr (e.g., history, psychology). 

- *Management/Communication*: 6cr (project management, public speaking). 

 

*Assessment* 

- *Exams* (50%), *Projects/Labs* (30%), *Participation* (20%). 

 

*Learning Outcomes* 

1. Solve complex engineering problems using math/science. 

2. Design systems meeting technical, economic, and environmental needs. 

3. Communicate effectively and work in teams. 

4. Engage in lifelong learning and ethical practice.