4 Years
Under Graduate
Engineering
Full Time
| Semester I | Subjects |
|---|---|
| Mathematics I | |
| Physics I | |
| Chemistry | |
| Engineering Mechanics | |
| Basic Electrical Engineering | |
| Engineering Graphics | |
| Environmental Studies | |
| Professional Communication |
| Semester II | Subjects |
|---|---|
| Mathematics II | |
| Physics II | |
| Basic Electronics Engineering | |
| Engineering Thermodynamics | |
| Computer Programming | |
| Manufacturing Processes | |
| Engineering Drawing | |
| Technical Communication |
| Semester III | Subjects |
|---|---|
| Mathematics III | |
| Mechanics of Solids | |
| Fluid Mechanics | |
| Material Science | |
| Theory of Machines | |
| Basic Automobile Engineering | |
| Manufacturing Technology |
| Semester IV | Subjects |
|---|---|
| Mathematics IV | |
| Internal Combustion Engines | |
| Automotive Chassis | |
| Machine Design | |
| Dynamics of Machinery | |
| Heat Transfer | |
| Electrical and Electronics Engineering |
| Semester V | Subjects |
|---|---|
| Automotive Transmission | |
| Automotive Electrical Systems | |
| Vehicle Dynamics | |
| CAD/CAM | |
| Control Systems | |
| Elective I | |
| Practical Training |
| Semester VI | Subjects |
|---|---|
| Automotive Engine Systems | |
| Vehicle Body Engineering | |
| Finite Element Analysis | |
| Vehicle Maintenance and Garage Practice | |
| Automotive Emission Control | |
| Elective II | |
| Industrial Training |
| Semester VII | Subjects |
|---|---|
| Alternative Fuels and Energy Systems | |
| Automotive Safety | |
| Transport Management | |
| Advanced Vehicle Technology | |
| Elective III | |
| Project I |
| Semester VIII | Subjects |
|---|---|
| Intelligent Transportation Systems | |
| Automotive NVH | |
| Industrial Management | |
| Elective IV | |
| Project II |
| Specialization | Core Subjects | Elective Subjects |
|---|---|---|
| Engine Design | Internal Combustion Engines, Automotive Engine Systems | Advanced Engine Technology |
| Vehicle Dynamics | Vehicle Dynamics, Automotive Chassis | Advanced Vehicle Dynamics |
| Electric and Hybrid Vehicles | Automotive Electrical Systems, Alternative Fuels and Energy Systems | Electric Vehicle Technology |
| Manufacturing | Manufacturing Technology, CAD/CAM | Advanced Manufacturing Techniques |
| Safety and Emission Control | Automotive Safety, Automotive Emission Control | Vehicle Crashworthiness and Safety Systems |
| Subject | Topics Covered |
|---|---|
| Mathematics | Algebra, Calculus, Differential Equations, Probability |
| Physics | Mechanics, Electricity and Magnetism, Thermodynamics, Optics |
| Chemistry | Physical Chemistry, Organic Chemistry, Inorganic Chemistry |
| General Aptitude | Logical Reasoning, Analytical Ability, Verbal Ability |
| Engineering Basics | Engineering Mechanics, Basic Electrical and Electronics Engineering |
| Subject | Book Title | Author(s) |
|---|---|---|
| Engineering Mechanics | Engineering Mechanics | S. Timoshenko, D.H. Young |
| Thermodynamics | Engineering Thermodynamics | P.K. Nag |
| Fluid Mechanics | Fluid Mechanics and Hydraulic Machines | R.K. Bansal |
| Material Science | Materials Science and Engineering | William D. Callister |
| Automobile Engineering | Automobile Engineering | K. K. Jain, R. B. Asthana |
| Internal Combustion Engines | Internal Combustion Engine Fundamentals | John B. Heywood |
| Vehicle Dynamics | Theory of Ground Vehicles | J. Y. Wong |
| Automotive Electrical Systems | Automotive Electrical and Electronic Systems | Tom Denton |
| Machine Design | Design of Machine Elements | V.B. Bhandari |
| Automotive Chassis | Automotive Chassis Systems | James D. Halderman |
| Heat Transfer | Heat and Mass Transfer | P.K. Nag |
| Manufacturing Processes | Manufacturing Technology: Foundry, Forming and Welding | P.N. Rao |
| Automotive Engines | Automotive Engines: Diagnosis, Repair, Rebuilding | Tim Gilles |
| Vehicle Maintenance | Automotive Maintenance & Light Repair | Rob Thompson |
| Control Systems | Modern Control Engineering | Katsuhiko Ogata |
Q. What are the core subjects in the first year?
Ans. The Ans. first year typically covers basic engineering concepts, including Mathematics, Physics, Chemistry, Engineering Mechanics, and Basic Electrical & Electronics Engineering.
Q. What advanced topics are studied in later years?
Ans. Advanced topics include Vehicle Dynamics, Internal Combustion Engines, Automotive Chassis, Transmission Systems, Vehicle Design, and Manufacturing Processes.
Q. Are there any practical or lab sessions?
Ans. Yes, practical sessions and labs are integral, covering subjects like Automotive Electrical Systems, Fluid Mechanics, and Material Science.
Q. Is there a focus on emerging technologies?
Ans. Yes, courses on Electric and Hybrid Vehicles, Automotive Electronics, and Advanced Materials are included to keep up with industry trends.
Q. Are internships or industry training part of the syllabus?
Ans. Internships and industry training are often mandatory, providing hands-on experience in real-world automotive engineering environments.
Q. Are there any elective courses?
Ans. Elective courses may include topics like Motor Vehicle Act and Safety, Advanced Vehicle Dynamics, and Alternative Fuels.
Q. What projects are involved?
Ans. Students typically undertake minor projects in the third year and major projects in the final year, focusing on innovative solutions in automobile engineering.
Q. How is the assessment conducted?
Ans. Assessments include a combination of written exams, practical exams, lab work, and project evaluations.
Q. What are the prospects after graduation?
Ans. Graduates can pursue careers in automotive design, manufacturing, R&D, or further studies such as M.Tech or MBA.
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