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What Do Aerospace Engineers Do?

Aerospace engineers design aircraft, spacecraft, missiles, and satellites. They receive proposals for projects and evaluate them for a variety of factors. Aerospace engineers can develop new technologies in these fields, designing new types of aerospace products. They must determine if the proposed project will be technically possible, financially possible, and safe. They will determine if the product meets the needs of the customer, can surpass environmental challenges, and can meet engineering principles. Once they have approved a project, they are in charge of coordinating the design and manufacturing of the product. They will also direct the final testing of the product and ensure that the project meets the proper quality standards. If there is a malfunction or damage in a product, they must identify the problem and any possible solutions.

Aerospace engineers usually specialize in different types of products, including commercial and military products, remote-piloted aircraft, launch vehicles, or rockets. There are two types of aerospace engineers: aeronautical engineers, who works with aircraft, and astronautical engineers, who work with spacecraft. They can be employed in a huge variety of industries and companies. They spend a large amount of their time in an office environment, using sophisticated computer software to design and create models and simulate testing.

They will work with many other professionals involved in the design and building of the aircraft or spacecraft components, so they must be able to communicate very well and work in a team to efficiently reach a common goal. They must have excellent math skills, critical thinking skills, business skills, and analytical skills. They must also hold a bachelor’s degree in aerospace engineering or some related field. If an engineer wants to advance in his or her career, it is possible to obtain a Professional Engineer license.

Aerospace Engineer Tasks

  • Perform a variety of engineering work in designing, constructing, and testing aircraft, missiles, and spacecraft.
  • May recommend improvements in testing equipment and techniques.
  • May conduct basic and applied research to evaluate adaptability of materials and equipment to aircraft design and manufacture.

Bachelor of Technology in Aerospace Engineering

Duration

4 Years

Level

Graduation

Type

Degree

Eligibility

10+2

B.Tech. Aerospace Engineering or Bachelor of Technology in Aerospace Engineering is an undergraduate Aeronautical Engineering course. Aerospace engineering is the primary branch of engineering concerned with the design, construction, and science of aircraft and spacecraft. Aerospace Engineering refers to an applied discipline of engineering dealing with the design, manufacture, functioning and maintenance of airborne vehicles like aircraft, spacecraft, helicopters and missiles. Aeronautical Engineering belongs to the category of high-tech engineering and involves the study of physical science and mathematics to perform research, development, testing, launching and the manufacture of various air vehicles. The core areas of specialization for a team of aeronautical engineers include aerodynamics, thermodynamics, celestial mechanics, control systems, propulsion and electronics.

B.Tech. Aerospace Engineering Eligibility

  • Aspiring students should have passed the 12th exam or its equivalent, with a minimum of 60% or equivalent CGPA from a recognized school board.
  • Some of the very reputed universities and institutes conduct entrance examination for admission.

B.Tech. Aerospace Engineering Syllabus

Syllabus of Aerospace Engineering as prescribed by various Universities and Colleges.

Sem. I
Sr. No. Subjects of Study
1 English I
2 Engineering Mathematics I
3 Engineering Physics I
4 Engineering Chemistry I
5 Engineering Graphics
6 Computer Programming
Practical
1 Computer Programming Laboratory
2 Engineering Practices Laboratory (OR)
3 Physical Sciences Laboratory
4 NSS / NCC / NSO / YRC
Sem. II
1 English II
2 Engineering Mathematics II
3 Engineering Physics II
4 Engineering Chemistry II
5 Basic Electrical and Electronics Engineering
6 Engineering Mechanics
Practical
1 Engineering Practices Laboratory (OR)
2 Physical Sciences Laboratory
3 Computer Aided Drafting & Modelling Laboratory
Sem. III
1 Engineering Mathematics III
2 Fluid Mechanics and Machinery
3 Environment Science and Engineering
4 Aero Engineering Thermodynamics
5 Solid Mechanics
6 Introduction to Aero Space Engineering
Practical
1 Strength of Materials Lab
2 Computer Programming Lab II
3 Thermodynamics Lab
Sem. IV
1 Numerical Methods
2 Aero Space Structures I
3 Aerodynamics I
4 Propulsion I
5 Control Engineering
6 Elements of Avionics
Practical
1 Aerospace Structures Lab I
2 Fluid Mechanics & Machinery Lab
3 Aerodynamics Lab-I
Sem. V
1 Aerospace Structures II
2 Flight Mechanics I
3 Aerodynamics II
4 Propulsion II
5 Aircraft Maintenance Practices
6 Elements of Vibration
Practical
1 Propulsion Lab I
2 Aerodynamics Lab II
3 Flight Dynamics Lab
Sem. VI
1 Propulsion III
2 Flight Mechanics II
3 Advanced Materials and Performance
Elective I
Elective II
Elective III
Practical
1 Propulsion Lab II
2 Aerodynamics Design Lab
3 Experimental Stress Analysis Laboratory
4 Communication skills lab
Sem. VII
1 Flight Mechanics III
2 Introduction to Composite Materials and Structures
3 Satellites and Space System Design
4 Rockets and Missiles
5 Total Quality Management
6 Professional Ethics / Humanities
Practical
1 Structural Design Lab
2 Space Propulsion Laboratory
3 Identification of Project Work
Sem. VIII
Elective IV
Elective V
Practical
1 Project Work
Electives for Semester VII
1 Advanced Aerodynamics
2 Advanced Strength of Materials
3 Turbo Machinery and Dynamics
4 FEM in Aerospace
5 Aero elasticity
6 Transport Process in Reacting Flows
7 Theory of Combustion
8 Experimental Stress Analysis
9 High-Temperature Materials
Electives for Semester VIII
1 Computational Fluid Dynamics
2 Flight Testing
3 Design of Gas Turbines
4 Fundamentals of space vehicle design
5 Avionics and Instrumentation
6 Reliability Engineering
7 Cryogenic Propulsion
8 Product Design & Development
9 Ceramic Technology
10 Introduction to NDT
11 Optimization Techniques

 

B.Tech. Aerospace Engineering Colleges

  • Hindustan Aviation Academy, Bangalore
  • Aeronautical Engineering and Research Organization – AERO, Pune
  • Rajiv Gandhi Memorial College of Aeronautics – RGMCA, Jaipur
  • Amrita Vishwa Vidyapeetham – Coimbatore Campus, Coimbatore

B.Tech. Aerospace Engineering Course Suitability

  • Students who want to train themselves on a wide variety of technical issues involving Design, Analysis and Manufacturing of Airplanes, Rockets, Missiles, Space launch vehicles, UAVs and more.
  • Those who want to equip themselves with the analytical, technological and managerial skills required to practice aerospace engineering can go for it.
  • Those who want to have further higher studies also are suitable for it.

How is B.Tech. Aerospace Engineering Course Beneficial?

  • It is beneficial to solve problems relating to the science and technology of aircraft and other flying vehicles and come up with unique solutions to the problem.
  • Aeronautical Engineering Courses imparts multi-faceted training to students in areas like manufacturing and development of aircraft and missiles.
  • You will also learn to appreciate the wider social implications of the engineering profession while generating innovative engineering concepts.

B.Tech. Aerospace Engineering Employment Areas

  • Aerospace Conveyance Systems Integration
  • Aerospace Industry (Quality)
  • Reverse Engineering for Aerospace
  • Airports
  • Colleges & Universities
  • Aviation Sector

B.Tech. Aerospace Engineering Job Types

  • Technical Publication Engineer
  • Design Engineer
  • Product sales Engineer
  • Team Leader
  • Filtration Manager
  • Manufacturing Engineering Engineer
  • Development Engineer

Advance Course in B.Tech. Aerospace Engineering

  • M.Tech. (Aerospace Engineering)

What is the Pay by Experience Level for Aerospace Engineers?

An entry-level Aerospace Engineer with less than 1 year experience can expect to earn an average total compensation (includes tips, bonus, and overtime pay) of ₹867,329 based on 77 salaries. An early career Aerospace Engineer with 1-4 years of experience earns an average total compensation of ₹706,750 based on 137 salaries. A mid-career Aerospace Engineer with 5-9 years of experience earns an average total compensation of ₹1,004,776 based on 60 salaries. An experienced Aerospace Engineer with 10-19 years of experience earns an average total compensation of ₹1,180,556 based on 34 salaries. In their late career (20 years and higher), employees earn an average total compensation of ₹2,456,588.

Employees with Aerospace Engineer in their job title in New Delhi, Delhi earn an average of 46.3% more than the national average. These job titles also find higher than average salaries in Pune, Maharashtra (21.9% more) and Kolkata, West Bengal (21.9% more). The lowest salaries can be found in Hyderabad, Andhra Pradesh (25.6% less), Chennai, Tamil Nadu (14.0% less) and Mumbai, Maharashtra (2.5% less).

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