To empower the students with subject knowledge of Aeronautical Engineering for serving the society in a challenging global environment.


  • To provide quality technical education in tune with the challenges.
  • To offer latest technological developments in the fields of Aeronautical Engineering.
  • To integrate the intellectual, spiritual, ethical and social development of the students for becoming dynamic Aeronautical Engineers.
  • To initiate desires for undertaking entrepreneurship and lifelong learning.

Programme Educational Objectives (PEO)

The graduates 4 or 5 years after completion of the degree will be able to

  • Apply knowledge in emerging and varied areas of Aerospace Engineering for higher studies, research, employment and product development.
  • Communicate their skills and have a sense of responsibility to protect the environment and have ethical conduct towards their profession and commitment to serve the society.
  • Exhibit managerial skills and leadership qualities while understanding the need for lifelong learning to be competent professionals.

Programme Outcomes (POs)

1. Ability to solve the engineering problems of mathematics, science and engineering.

2. An engineering acumen in identifying, formulating, analyzing and solving complex engineering problems.

3. Developing processes, solutions to the problems which are safe socially, culturally and environmentally.

4. Ability to model, analyze and simulate operations of aircraft components and parts.

5. Capability of exhibiting sound theoretical and practical knowledge in core domains like aircraft structures, aerodynamics and propulsion and are able to solve problems related to airflow over fixed and rotary wing aircrafts.

6. Understanding of the impact of engineering solutions in a global, economic, environmental, and societal context

7. An ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.

8. Commitment to professional ethics and responsibilities and norms as prescribed by the Aviation bodies such as DGCA etc.

9. Ability to work in team and have practical exposure in modeling of UAV, hovercrafts etc.

10. Ability to communicate effectively with the aerospace community using reports, presentations and documentations.

11. Ability to manage the projects in various aerospace fields of structure, propulsion, avionics etc.

12. A readiness to engage in lifelong learning and understanding of contemporary issues in aviation industry.

Programme Specific Outcomes (PSOs)

Engineering Graduates will be able to:
  • PSO-1 Software knowledge: Use the software packages to solve engineering problems.
  • PSO-2 Maintanence: Work in the aircraft maintenance and manufacturing field.

Courses Offered

UG Course

• B.E - Aeronautical Engineering

About the Course

Aeronautical Engineering is one of the most challenging fields of engineering with a wide scope for growth. This field deals with the study and development of new technology in the field of aviation, space exploration, and defense system. This field deals with the development of new technology in the field of aviation, space exploration and defense system.

A candidate must be an excellent team player who is self-motivated and has high technical and analytical skills. Owing to globalization and industrialization, enormous job opportunities await the best in this field.

Aeronautical Engineering has a wide range of scope like: design, development and maintenance of commercial aircraft, military aircraft, spacecraft, satellites and missiles as well as their components, testing new aerodynamic and aviation systems, quality management and improvement maintenance.

Aeronautical Engineering Department includes four major streams:

  • Aerodynamics
  • Flight Dynamics
  • Propulsion
  • Structures



  • To introduce the concepts of mass
  • Momentum and Energy conservation relating to Aerodynamics.  
  • To make the student understand the concept of vorticity& irrotationality
  • Theory of airfoils and wing sections.
  • To introduce the basics of viscous flow.

Flight Dynamics:

  • To study the performance of airplanes under various operating conditions and the static and dynamic response of aircraft for both voluntary and involuntary changes in flight conditions.


  • To understand the principles of operation and design of aircraft and spacecraft power plants.
  • To study in detail about gas turbines, ramjet, fundamentals of rocket propulsion and chemical rockets.


  • To study different types of beams and columns subjected to various types of loading and support conditions with particular emphasis on aircraft structural components.

Aeronautical engineers often work for large aviation companies like Airbus, Boeing and even NASA. These companies are constantly seeking trained engineers. In India, Aeronautical engineers are mostly employed by ISRO (Indian Space Research Organization) and the Defense Ministry. One can also look job available with the Civil Aviation Department, National Aeronautical Laboratory, Defense Research and Development Laboratories (DRDO) and Hindustan Aeronautics Limited (HAL).
Aerospace engineers are in great need in aircraft industrialized divisions, airline industries and air turbine production plants or designs. They can also seek employment in different areas such as design, development, and maintenance as well as in the managerial and teaching jobs in institutes. This is an incredibly well paid job but it is also very demanding. In future the demand for aerospace engineers will rise because of their requirement in various sectors. There are lots of job opportunities available in India as well as in foreign countries.



PG Course

• M.E - Aeronautical Engineering

About the Course

Aeronautical Engineering course trains the students in the design and development of structural components. The course explores new areas and creates new avenues in the field of Aircraft structural components and focuses on developing talented engineers in the new technologies and business management skills. The field of activity of a qualified engineer involves development (construction, analysis and testing), priming of work, fabrication and observation of the functionality of Aircraft and Helicopter structures. The students undergo rigorous training in simulation with the software, such as, MATLAB SIMULINK, ANSYS, MSC/NASTRAN and LABVIEW. The students design and develop according to the specified standards and demonstrate project work in the field of metallic and composite structures.

  • There are immense challenging opportunities in the aeronautical field with emerging new technologies and advanced materials.
  • Our Aeronautical Engineering programme has a long history dating back to the pioneering days of our founder.
  • With the excellent technical manpower and infrastructure available in the laboratories, the programme offers ample opportunities for the students to equip themselves sufficiently to meet these challenges.

Students who have interest in Aeronautical Structure, Aerodynamics and Computation Fluid Dynamics. Aeronautical engineering prepares students for challenging careers with the required technical knowledge.


The candidates must have passed Bachelor’s in Aeronautical Engineering, Mechanical Engineering or its equivalent with first class.
Job Opportunities for an Aeronautical Engineer in India lies with various airlines like

  • Air India
  • Indian Airlines
  • Helicopter Corporation of India
  • private airlines and government owned air service.

Students after completing their courses are placed in some of the top Aeronautical and other industries in India such as

  • Hindustan Aeronautics Limited
  • National Aerospace laboratory
  • Taneja aerospace limited
  • Mahindra and Mahindra
  • TCS
  • Infosys
  • DRDO
  • ISRO

The Defence services includes three major employers such as

  • Indian Air Force (IAF)
  • Indian Navy (IN)
  • Indian Space Research Organisation (ISRO)