Master of Technology in Aerospace Engineering
Duration
2 Years
|
Level
Post Graduation
|
Type
Degree
|
Eligibility
Graduation
|
M.Tech Aerospace Engineering or Master of Technology in Aerospace Engineering is a two-year Post-Graduate Aeronautical Engineering course. Aerospace Engineering is the primary branch of engineering concerned with the design, construction, and science of aircraft and spacecraft. The Master of Technology course in Aerospace Engineering focuses on the designing, construction, development, testing, operation, and maintenance of both commercial and military aircraft, spacecraft, and their components as well as satellites and missiles.
Subjects usually studied under the Master of Technology degree in Aerospace Engineering are Academic Writing Research, Intro Engineering, Aerodynamics, Introduction to Computing-FORTRAN, Aerospace Structure, Computing Environment, Physics Engineering, Aerospace Vehicle Design, Engineer Dynamics, Engineering Statics, and Propulsion, etc.
M.Tech Aerospace Engineering Eligibility
- Aspiring students should have passed a BE / B.Tech degree or equivalent qualification from a recognized University.
- The candidates should have secured a minimum of 50% aggregate marks in their Bachelor's.
- Some of the very reputed institutes conduct an entrance examination for admission.
M.Tech Aerospace Engineering Syllabus
Syllabus of Aerospace Engineering course as prescribed by various Universities and Colleges.
M.Tech Aerospace Engineering Semester-I
|
Sr. No.
|
Subjects of Study
|
1
|
Airplane and Aerospace Structures
|
2
|
Elements of Gas Dynamics & Propulsion
|
3
|
Engineering Aerodynamics & Flight Mechanics
|
4
|
Introduction to Space Technology
|
6
|
PG Elective
|
M.Tech Aerospace Engineering Semester-II
|
1
|
Laboratory II (Str. Lab)
|
2
|
Aerodynamic Design
|
3
|
Elective I
- Aero Acoustics
- Aerodynamics of Missiles and Launch Vehicles
- Composite Structures
- Combustion, Explosion, and Detonation
- Dynamics of Elastic Systems
- Non Linear Behaviour of Plates and Shells
- Performance of Gas Turbines
- Stability of Shear Flows
|
4
|
Elective II
- Approximate Methods in Structural
- Flight Testing and Performance Reduction
- Hypersonic Flow Theory
- Hypersonic Air-breathing Propulsion
- Thermal Stress Analysis
- Theories of Modern Plate Structures
|
5
|
Elective III
- Advanced Aerodynamics
- Aerospace Systems Control and Estimation
- Hydrodynamic Stability, Transition, and Flow Control
- Multiphase Flow
- Radiation Heat Transfer
- Transonic Aerodynamics
- Theory and Design of Gas Turbines
- Unsteady Aerodynamics of Moving Bodies
|
6
|
Elective IV
- Analysis of Plates and Shells
- Continuum Mechanics
- Numerical Methods in Gas Dynamics
- Physical Gas Dynamics
- System Simulation and Process Optimization
- Turbulent Flows and their Computation
|
M.Tech Aerospace Engineering Semester-III
|
1
|
Project
|
2
|
Structural Design
|
3
|
Elective V
- Acoustics Instabilities in Aerospace Propulsion
- Boundary-Layer Theory
- Combustion & Flow Diagnostics
- Elasticity and Elastic Stability
- Experimental Methods in Aero/ Gas Dynamics
- Finite Element Analysis
- Mechatronics Design
- Structural Dynamics and Aero-Elasticity
- Theory & Computation of Vortex-Dominated Flows
|
4
|
Elective VI
- Aero-Elasticity
- Advanced Flight Mechanics
- Computational Aerodynamics
- Experimental Techniques in Structural Mechanics
- Helicopter Aerodynamics
- High-Temperature Gas Dynamics
- Introduction to CFD
- Transport Processes in Reacting Flows
|
5
|
Elective VII
- Advanced Strength of Materials
- Contact Mechanics and Teratology
- Energy Methods in Structural Analysis
- Grid Generation
- Introduction to Turbulent Flows & their Predictions
- Mechanics of Damage Tolerance
- Object-Oriented Program for Science & Engineers
- Rocket Propulsion
|
M.Tech Aerospace Engineering Semester-IV
|
1
|
Project
|
M.Tech Aerospace Engineering Colleges
M.Tech Aerospace Engineering Course Suitability
- Students should have a strong engineering background to gain advanced, yet broad knowledge in aerospace engineering while encouraging specialization through a research project.
- They should be able to design and estimate the performance of an aircraft, compute its aerodynamic properties, simulate its motion in flight, and analyze how its aerodynamic and structural properties influence stability and control.
- They should be hard workers, can work for long hours, and should be updated with the developments in the very fields.
How is the M.Tech Aerospace Engineering Course Beneficial?
- The Master of Technology course in Aerospace Engineering is beneficial for enabling the students to gain proficiency in highly advanced fields, such as space engineering, flight control and simulation, aero-elasticity, computational fluid dynamics, advanced aerodynamics, combustion, computational mechanics, and vehicular crashworthiness.
- The Aerospace Engineering course gives you advanced training in the sciences and technology that are currently most widely used in the fields of aeronautics and space.
- The Master's program includes the study of theoretical and practical groundwork, techniques, methods, and processes of current use in aerospace research.
- Graduates from this Master's degree will be experts qualified to work in University departments, institutes, or research centers to produce a doctoral thesis. R&D & I departments in the industry in the aerospace field or similar.
M.Tech Aerospace Engineering Employment Areas
- Academic Institutions
- Defense Research and Development Laboratories
- Flying Clubs
- Helicopter Corporation of India
- Hindustan Aeronautics Ltd. (HAL)
- Indian Airlines
- Indian Space Research Organisation (ISRO)
- National Aeronautical Lab (NAL)
M.Tech Aerospace Engineering Job Types
- Associate Professor
- Aerospace Domain Expert
- Aerospace Stress Designer
- Aerospace Technical Writer
- Aerospace Design Engineer
- Hardware Design Engineer
- Lecturer/Professor
- Project Manager
- Technical Manager