Learning about aerospace engineering can inspire a sense of wonder about the limitless possibilities of human flight and space exploration. B Tech Aerospace Engineering equips students with the necessary skills for designing, manufacturing, and maintaining spacecraft, aircraft, missiles, etc. Aeronautical engineering and astronautical engineering are the two main, overlapping divisions of the field, which has historically concentrated on issues relating to atmospheric and space flight. During BE Aerospace Engineering studies, you'll have the opportunity to work on practical projects that apply engineering principles to real-world aerospace problems. It covers various aspects including the development and production of missiles, propulsion systems, satellites, and aircraft, as well as the design and testing of aerospace and aviation-related goods, parts, and subassemblies.
Course Duration-
The UG degree in Aerospace Engineering is for 4 years from any university in the country for 10+2 students and is 3 years for Diploma graduates.
Salient Features -
Aerospace Engineering Syllabus
The Aerospace engineering curriculum comprises subjects like applied thermodynamics, engineering mechanics, aircraft maintenance, aerodynamics, and more. However, the B.Tech Aerospace Engineering curriculum is not fixed; it differs between universities. Below, you'll find a breakdown of the aeronautical engineering syllabus organized by semester.
| Aerospace Engineering curriculum | |
|---|---|
| I SEM | II SEM |
| Calculus | Vector Calculus and Ordinary Differential Equations |
| Physics - I | Physics - II |
| Chemistry | Material Science and Metallurgy |
| Basic Electrical Engineering | Basic Electronic Engineering |
| Communication Skills | Engineering Graphics |
| Environmental Science and Engineering | Computer Programing and Application |
| Physics Lab | Chemistry Lab |
| Basic Engineering Lab | Basic Electrical and Electronics Engineering Lab |
| III SEM | IV SEM |
| Linear Algebra, Complex Analysis, and Fourier Series | Integral Transforms, PDE, and Calculus of Variations |
| Engineering Thermodynamics | Aerodynamics |
| Mechanics of Solids | Heat Transfer |
| Fluid Mechanics | Applied Dynamics and Vibration |
| Materials Processing Techniques | Machining and Precision Manufacturing |
| Introduction to Economics | Introduction to Social Science and Ethics |
| Introduction to Machine Elements and Drawing | Metrology and Computer-Aided Inspection |
| Strength of Materials Lab | Thermal and Fluid Lab |
| V SEM | VI SEM |
| Engineering Mathematic IV | Avionics |
| Computer of Programming | Experimental Aerodynamics |
| Principle of Management | Aircraft Structure II |
| Flight Dynamics I | Heat Transfer |
| Aerodynamics II | Theory of Vibration |
| Propulsion II | Elective I |
| Wind Tunnel Lab | Heat Engines Lab |
| Propulsion Lab II | Aero Engines lab |
| VII SEM | VIII SEM |
| Computational Fluid Dynamics | Rocket Missiles |
| Experimental Stress Analysis | Introduction to space technology |
| Aircraft Design | Air Transportation and Aircraft maintenance |
| Fight Dynamics II | Elective III |
| Aircraft System and Instrumentation | Elective IV |
| Elective II | Aerodynamics Lab |
| Experimental Stress Analysis Lab | Project |
|
Vibration Lab, Seminar, Project |
Viva Voce |
Eligibility for B.E./B.Tech:
Admission Process
The ranking in the JEE national entrance exam, the KCET state-level entrance exam, or the direct university entrance exams determines whether a student is admitted to a B.E. or B. Tech program. Some colleges give places depending on students' performance on their 12th-grade exams. Please familiarise yourself with the various Entrance tests, the associated dates for the exams, and the cut-off in colleges as there isn't a one-size-fits-all approach to admission.
Entrance Exams for Admission to B.E/B. Tech Aerospace Engineering
To pursue a Bachelor's degree in Aerospace Engineering, Students must take the National Entrance Examination (JEE) or State-level Entrance Exams like KCET, MHT CET, WBJEE, or COMED-K as well as University Entrance exams. These examinations serve as crucial gateways for aspiring students aiming to gain admission to reputable institutions.
Here are the details of the Top Entrance Exams for Engineering
An Aerospace Engineer can choose from four broad career paths after pursuing a B.E. or B. Tech Degree.
1. Employment Opportunities -
Studying aerospace engineering can be challenging, but it's a field that offers incredible opportunities to contribute to the future of flight and space exploration. Aerospace Engineering graduates can choose suitable Employment in the Engineering Domain working in the Government, Public, or private sector. The aerospace industry itself provides numerous job opportunities. Aerospace engineers can work for aircraft and spacecraft manufacturers, such as Boeing, Airbus, Lockheed Martin, SpaceX, and Blue Origin. They can be involved in designing, developing, testing, and manufacturing aircraft, spacecraft, satellites, and related components. and companies like Boeing, SpaceX, Lockheed Martin, Airbus, Northrop Grumman, Raytheon Technologies, Blue Origin, United Technologies Corporation (UTC), Thales Group, and Safran.
Top Trending Career Profiles
Top Companies Recruiting Aerospace Engineers
2. Venture into Entrepreneurship/Self-Employment -
The sky is the limit on this front with a growing number of “Startup” opportunities in India. The Aerospace Engineer can venture into one of these fields Aircraft Design and Development, Spacecraft Design and Development, Avionics and Control Systems, Propulsion and Power Systems, and Aerospace Research and Development.
3. Higher Studies & Skill Enhancements
Engineering graduates can pursue higher education in Engineering or Management like M.Tech/M.E. or MBA. In addition to these conventional qualifications, there are industry-specific certifications that give a good leap into the industry. An example of a few such certificates is listed below
Top Engineering Colleges for Aerospace Engineering Pan-India
Discover your perfect program in our courses.
Obviously YES, one of the top branches since there is a wide choice of career options like in Boeing, Airbus, Lockheed Martin, SpaceX, and Blue Origin Software, and both in the Government and private sectors.
Recent advancements in aerospace engineering include the development of electric and hybrid aircraft, advancements in supersonic and hypersonic flight, increased use of composite materials, the exploration of reusable rocket systems, and the advancement of autonomous systems for aerial vehicles.
Yes, aerospace engineers can work on both aircraft and spacecraft. Many of the fundamental principles and technologies are applicable to both domains, although there are some unique considerations and challenges associated with each
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