*Year 1: Foundational Courses*

*Semester 1* 

1. *Mathematics I* 

   - Calculus, differential equations, linear algebra. 

2. *Physics for Engineers* 

   - Mechanics, waves, thermodynamics basics. 

3. *Chemistry for Engineers* 

   - Material properties, chemical reactions, energy. 

4. *Engineering Graphics/CAD* 

   - Technical drawing, AutoCAD/SolidWorks basics. 

5. *Programming Fundamentals* 

   - Introduction to Python/C/MatLAB. 

6. *Workshop Practice* 

   - Hands-on training in welding, carpentry, machining. 

 

*Semester 2* 

1. *Mathematics II* 

   - Multivariable calculus, Fourier series. 

2. *Engineering Mechanics (Statics)* 

   - Forces, equilibrium, trusses, friction. 

3. *Materials Science* 

   - Metals, polymers, ceramics, phase diagrams. 

4. *Basic Electrical Engineering* 

   - Circuits, motors, transformers. 

5. *Environmental Science* 

   - Sustainability, pollution control. 

6. *Communication Skills* 

   - Technical writing, presentations. 

 

*Year 2: Core Mechanical Engineering* 

*Semester 3* 

1. *Mechanics of Materials (Strength of Materials) * 

   - Stress, strain, bending, torsion. 

2. *Fluid Mechanics* 

   - Bernoulli’s equation, viscosity, pumps. 

3. *Engineering Thermodynamics* 

   - Laws of thermodynamics, cycles (Carnot, Rankine). 

4. *Machine Drawing* 

   - Assembly/disassembly of mechanical components. 

5. *Humanities/Social Science Elective* 

   - Economics, psychology, or management. 

 

*Semester 4* 

1. *Dynamics of Machinery* 

   - Kinematics, gyroscopes, balancing. 

2. *Manufacturing Processes* 

   - Casting, forging, machining, CNC. 

3. *Heat and Mass Transfer* 

   - Conduction, convection, radiation, heat exchangers. 

4. *Instrumentation & Measurement* 

   - Sensors, data acquisition, calibration. 

5. *Numerical Methods* 

   - Computational techniques for engineering problems. 

 

*Year 3: Specialization & Advanced Topics* 

*Semester 5* 

1. *Machine Design* 

   - Design principles, failure theories, gears, bearings. 

2. *Control Systems* 

   - Feedback systems, PID controllers, robotics. 

3. *CAD/CAM* 

   - Computer-aided design/manufacturing (e.g., ANSYS, CATIA). 

4. *Elective I* 

   - E.g., Robotics, Automotive Engineering, or Renewable Energy. 

5. *Lab: Fluid Mechanics & Thermodynamics* 

 

*Semester 6* 

1. *Power Plant Engineering* 

   - Thermal, hydro, nuclear power systems. 

2. *Mechanical Vibrations* 

   - Damped systems, resonance, vibration control. 

3. *Mechatronics* 

   - Integration of mechanical, electrical, and software systems. 

4. *Elective II* 

   - E.g., Composite Materials, HVAC, or Finite Element Analysis. 

5. *Mini Project* 

   - Design/build a mechanical system (e.g., gearbox, drone). 

 

*Year 4: Professional Preparation & Capstone* 

*Semester 7* 

1. *Renewable Energy Systems* 

   - Solar, wind, biofuels, energy storage. 

2. *Operations Research/Optimization* 

   - Linear programming, cost optimization. 

3. *Industrial Management* 

   - Lean manufacturing, Six Sigma, project management. 

4. *Elective III* 

   - E.g., Aerospace Engineering, Computational Fluid Dynamics (CFD). 

5. *Internship/Industrial Training* 

 

*Semester 8* 

1. *Capstone Project* 

   - Year-long project solving real-world problems (e.g., electric vehicle design). 

2. *Professional Ethics* 

   - Case studies in engineering ethics, sustainability. 

3. *Elective IV* 

   - E.g., Additive Manufacturing, Automotive Aerodynamics. 

4. *Seminar/Technical Report Writing* 

 

*Elective Options* 

- Robotics & Automation 

- Automotive Engineering 

- Aerospace Engineering 

- Nanotechnology 

- Computational Mechanics 

- HVAC Systems 

- Biomechanics 

 

*Labs & Workshops* 

- *Year 1:* Basic workshop, physics/chemistry labs. 

- *Year 2:* Materials testing, fluid mechanics, thermodynamics labs. 

- *Year 3:* CAD/CAM, mechatronics, control systems labs. 

- *Year 4:* Advanced prototyping, CFD simulations.