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A Bachelor of Engineering (BE) in Aeronautical Engineering is an exciting and specialized program that focuses on the design, development, and maintenance of aircraft and spacecraft. This comprehensive 4-year program equips students with a strong foundation in engineering principles, along with specialized knowledge in aeronautics. Practical application is a key component of this program, with students often engaging in hands-on projects, laboratory work, and even flight testing. They learn to use industry-standard software for aircraft design and simulation. Safety, regulations, and ethics within the aerospace industry are emphasized to ensure graduates adhere to industry standards.
| Highlight | Description |
|---|---|
| Duration | 4 years |
| Degree Awarded | Bachelor of Engineering in Aeronautical Engineering |
| Eligibility | Completion of 10+2 (Higher Secondary School Certificate) or equivalent examination from a recognized board with Physics, Chemistry, and Mathematics as compulsory subjects |
| Curriculum | Comprehensive coverage of aerodynamics, aircraft structures, propulsion, flight mechanics, avionics, and aerospace materials |
| Practical Exposure | Hands-on training in laboratories, workshops, and design studios |
| Career Prospects | Wide range of opportunities in the aerospace industry, including airlines, aircraft manufacturers, aerospace research and development organizations, and air traffic control |
Eligibility
To be eligible for admission to a BE (Aeronautical Engineering) program, candidates must meet the following criteria:
Admission Process
The admission process for BE (Aeronautical Engineering) typically involves the following steps:
Step 1: Application
Interested candidates must submit an online or offline application form along with the required documents, such as mark sheets, certificates, and passport-sized photographs.
Step 2: Entrance Exam (if applicable)
Some institutions may conduct an entrance exam to assess candidates' aptitude for the program. The format and syllabus of the exam may vary depending on the institution.
Step 3: Merit List Preparation
Based on the performance in the qualifying examination and entrance exam (if applicable), a merit list is prepared. Candidates are shortlisted for further consideration based on their position on the merit list.
Step 4: Counseling and Interview
Shortlisted candidates are invited for counseling and an interview. The counseling session helps candidates understand the program structure, career prospects, and other relevant information. The interview aims to assess the candidate's communication skills, motivation, and suitability for the program.
Step 5: Admission Offer
Based on the overall performance in the counseling and interview, selected candidates receive an admission offer. Upon accepting the offer, candidates must complete the admission formalities, including fee payment and registration.
Educational Qualification: Completion of 10+2 (Higher Secondary School Certificate) or equivalent examination from a recognized board with Physics, Chemistry, and Mathematics as compulsory subjects.
Minimum Marks: Minimum aggregate marks of 50% (45% for SC/ST/OBC candidates) in Physics, Chemistry, and Mathematics.
English Language: English as a compulsory subject.
Additional Eligibility Criteria:
Some institutions may require candidates to have a minimum qualifying score in a national-level entrance exam, such as JEE Main or JEE Advanced.
Some institutions may have specific age limits for admission.
Some institutions may have specific requirements for foreign nationals.
1. JEE Main (Joint Entrance Examination - Main)
JEE Main is a national-level entrance exam conducted by the National Testing Agency (NTA) for admission to various engineering programs, including BE (Aeronautical Engineering). The exam is held twice a year, in January and April.
Exam Format:
Eligibility:
2. JEE Advanced (Joint Entrance Examination - Advanced)
JEE Advanced is a national-level entrance exam conducted by the IITs (Indian Institutes of Technology) for admission to their engineering programs, including BE (Aeronautical Engineering). The exam is held once a year, in May.
Exam Format:
Eligibility:
3. BITSAT (Birla Institute of Technology and Science Aptitude Test)
BITSAT is a national-level entrance exam conducted by the Birla Institute of Technology and Science (BITS) Pilani for admission to their engineering programs, including BE (Aeronautical Engineering). The exam is held once a year, in May.
Exam Format:
Eligibility:
4. SRMJEEE (SRM Joint Entrance Examination - Engineering)
SRMJEEE is a national-level entrance exam conducted by the SRM Institute of Science and Technology for admission to their engineering programs, including BE (Aeronautical Engineering). The exam is held once a year, in April.
Exam Format:
Eligibility:
5. VITEEE (Vellore Institute of Technology Entrance Examination)
VITEEE is a national-level entrance exam conducted by the Vellore Institute of Technology (VIT) for admission to their engineering programs, including BE (Aeronautical Engineering). The exam is held once a year, in April.
Exam Format:
Eligibility:
| Subject | Description |
|---|---|
| Engineering Mechanics | This subject introduces the fundamental principles of mechanics, including statics, dynamics, and kinematics. |
| Engineering Mathematics | This subject covers a wide range of mathematical topics, including calculus, linear algebra, and differential equations. |
| Material Science | This subject provides an overview of the different types of materials used in engineering, including metals, polymers, and composites. |
| Thermodynamics | This subject deals with the energy transformations that occur in physical and chemical systems. |
| Fluid Mechanics | This subject studies the behavior of fluids, including liquids and gases. |
| Aerodynamics | This subject focuses on the aerodynamics of aircraft, including lift, drag, and stability. |
| Aircraft Structures | This subject deals with the design and analysis of aircraft structures. |
| Aircraft Propulsion | This subject covers the different types of aircraft propulsion systems, including jet engines and propellers. |
| Flight Mechanics | This subject studies the motion of aircraft in flight. |
| Avionics | This subject covers the electronic systems used in aircraft. |
| Aerospace Materials | This subject focuses on the materials used in aerospace applications, including metals, composites, and ceramics. |
| Aerospace Manufacturing Technology | This subject covers the different methods used to manufacture aerospace components. |
| Computational Fluid Dynamics (CFD) | This subject introduces the principles of CFD, which is used to simulate the flow of fluids around aircraft. |
| Finite Element Analysis (FEA) | This subject introduces the principles of FEA, which is used to analyze the stress and strain in aircraft structures. |
| Airworthiness and Regulations | This subject covers the airworthiness regulations that govern the design and operation of aircraft. |
| Aircraft Design | This subject integrates all of the knowledge gained in previous subjects to design an aircraft. |
Engineering Mechanics: This subject introduces the fundamental principles of mechanics, including statics, dynamics, and kinematics. Students learn about forces, moments, work, energy, and motion, which are essential for understanding the behavior of aircraft structures and their response to external loads.
Engineering Mathematics: This subject covers a wide range of mathematical topics, including calculus, linear algebra, and differential equations. These mathematical tools are crucial for solving engineering problems and analyzing complex systems in aeronautics.
Material Science: This subject provides an overview of the different types of materials used in engineering, including metals, polymers, and composites. Students learn about the properties, behavior, and applications of various materials used in aircraft structures, propulsion systems, and other components.
Thermodynamics: This subject deals with the energy transformations that occur in physical and chemical systems. Students learn about the concepts of entropy, enthalpy, and heat transfer, which are essential for understanding the performance of aircraft engines and the behavior of fluids in aerospace applications.
Fluid Mechanics: This subject studies the behavior of fluids, including liquids and gases. Students learn about fluid properties, flow patterns, and forces acting on fluids, which are crucial for understanding the aerodynamics of aircraft and the design of fluid machinery used in propulsion systems.
Aerodynamics: This subject focuses on the aerodynamics of aircraft, including lift, drag, and stability. Students gain in-depth knowledge of the principles of airflow around aircraft, the effects of aerodynamic forces on aircraft performance, and the design of aerodynamically efficient configurations.
Aircraft Structures: This subject deals with the design and analysis of aircraft structures. Students learn about stress and strain, structural analysis methods, and the use of materials to achieve the required strength, stiffness, and weight requirements for aircraft structures.
Aircraft Propulsion: This subject covers the different types of aircraft propulsion systems, including jet engines, propellers, and rockets. Students learn about the working principles, performance characteristics, and design considerations of various propulsion systems used in different types of aircraft.
Flight Mechanics: This subject studies the motion of aircraft in flight. Students learn about the equations of motion, stability and control, and the performance of aircraft in various flight conditions.
Avionics: This subject covers the electronic systems used in aircraft. Students learn about the principles of navigation, communication, and control systems, and the integration of avionics systems into the overall aircraft design.
| Specialization | Description |
|---|---|
| Aerospace Structures | This specialization focuses on the design, analysis, and testing of aircraft structures. Students learn about the different types of structural materials, stress analysis methods, and the use of advanced composite materials. |
| Aerodynamics | This specialization focuses on the aerodynamics of aircraft, including lift, drag, and stability. Students learn about the principles of airflow around aircraft, the effects of aerodynamic forces on aircraft performance, and the design of aerodynamically efficient configurations. |
| Aerospace Propulsion | This specialization focuses on the different types of aircraft propulsion systems, including jet engines, propellers, and rockets. Students learn about the working principles, performance characteristics, and design considerations of various propulsion systems used in different types of aircraft. |
| Avionics and Control Systems | This specialization focuses on the electronic systems and control systems used in aircraft. Students learn about the principles of navigation, communication, and control systems, and the integration of avionics and control systems into the overall aircraft design. |
| Computational Fluid Dynamics (CFD) | This specialization focuses on the use of computational methods to simulate the flow of fluids around aircraft. Students learn about the principles of CFD, the use of CFD software, and the application of CFD to solve aerodynamic problems. |
| Aerospace Materials | This specialization focuses on the development, characterization, and application of materials used in aerospace applications, including metals, polymers, and composites. Students learn about the properties, behavior, and processing of various materials, and the design of materials for specific aerospace applications. |
| Aerospace Manufacturing Technology | This specialization focuses on the different methods used to manufacture aerospace components. Students learn about the use of advanced manufacturing techniques, such as composite molding, additive manufacturing, and precision machining, in the production of aerospace components. |
| Aerospace System Design | This specialization focuses on the design of complete aircraft systems, including the integration of aerodynamics, propulsion, structures, avionics, and control systems. Students learn about the systems engineering approach to aircraft design, and the trade-offs involved in achieving the desired performance and safety characteristics. |
| College | Average CTC (INR) |
|---|---|
| Indian Institute of Technology Madras (IIT Madras) | ₹10-15 LPA |
| Indian Institute of Technology Kanpur (IIT Kanpur) | ₹9-14 LPA |
| Indian Institute of Technology Bombay (IIT Bombay) | ₹8-13 LPA |
| Indian Institute of Technology Delhi (IIT Delhi) | ₹7-12 LPA |
| Indian Institute of Technology Kharagpur (IIT Kharagpur) | ₹6-11 LPA |
| Indian Institute of Technology Roorkee (IIT Roorkee) | ₹5-10 LPA |
| Indian Institute of Technology Guwahati (IIT Guwahati) | ₹4-9 LPA |
| Indian Institute of Technology Hyderabad (IIT Hyderabad) | ₹3-8 LPA |
| Indian Institute of Technology Indore (IIT Indore) | ₹2-7 LPA |
| Indian Institute of Technology Tirupati (IIT Tirupati) | ₹1-6 LPA |
| Rank | College | Location | Average Annual Fees (INR) |
|---|---|---|---|
| 1 | Manipal Institute of Technology (MIT), Manipal | Manipal, Karnataka | ₹10.05 lakh-₹12.85 lakh |
| 2 | SRM Institute of Science and Technology (SRMIST), Chennai | Chennai, Tamil Nadu | ₹9.50 lakh-₹12.00 lakh |
| 3 | Birla Institute of Technology and Science (BITS) Pilani | Pilani, Rajasthan | ₹10.00 lakh-₹14.00 lakh |
| 4 | VIT Vellore Institute of Technology | Vellore, Tamil Nadu | ₹9.50 lakh-₹12.50 lakh |
| 5 | Amity University, Noida | Noida, Uttar Pradesh | ₹6.00 lakh-₹10.00 lakh |
| 6 | Lovely Professional University (LPU), Jalandhar | Jalandhar, Punjab | ₹7.20 lakh |
| 7 | Sathyabama Institute of Science and Technology, Chennai | Chennai, Tamil Nadu | ₹4.72 lakh |
| 8 | Bannari Amman Institute of Technology (BIT), Srirangam | Srirangam, Tamil Nadu | ₹7.20 lakh |
| 9 | MLR Institute of Technology (MLRIT), Hyderabad | Hyderabad, Telangana | ₹3.96 lakh |
| 10 | Dayananda Sagar College of Engineering (DSCE), Bengaluru | Bengaluru, Karnataka | ₹6.50 lakh-₹9.50 lakh |
| Specialization | Average Salary Range (INR) | Key Responsibilities |
|---|---|---|
| Aircraft Design Engineer | ₹5-15 LPA | Designing and developing new aircraft models, considering aerodynamics, structural integrity, and performance requirements. |
| Aerospace Propulsion Engineer | ₹4-14 LPA | Designing and developing aircraft engines, including turbine engines, hybrid propulsion systems, and electric propulsion systems. |
| Aerodynamics Engineer | ₹4-12 LPA | Analyzing the airflow around aircraft to optimize performance, reduce drag, and ensure stability and control. |
| Avionics Engineer | ₹4-10 LPA | Designing and developing aircraft avionics systems, including navigation systems, communication systems, and flight control systems. |
| Flight Test Engineer | ₹4-10 LPA | Conducting flight tests to evaluate aircraft performance, safety, and compliance with regulations. |
| Aerospace Structures Engineer | ₹4-12 LPA | Designing and analyzing aircraft structures to ensure strength, weight reduction, and fatigue resistance. |
| Aerospace Materials Engineer | ₹4-10 LPA | Developing and selecting materials for aerospace applications, considering properties such as weight, strength, and temperature resistance. |
| Aerospace Manufacturing Engineer | ₹4-10 LPA | Overseeing the manufacturing of aircraft components, ensuring quality control, and optimizing production processes. |
| Aerospace Quality Control Engineer | ₹4-8 LPA | Ensuring the quality of aircraft components and systems through inspection, testing, and documentation. |
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