Aerospace Engineering Syllabus 2025: Semester-wise Subjects, Core and Electives

Aerospace Engineering is a highly specialized discipline focusing on the design, analysis, development, and operational testing of aircraft and spacecraft. The Aerospace Engineering syllabus for 2025 has been meticulously structured to equip students with a deep understanding of the scientific, mathematical, and engineering principles critical for building flightworthy machines.

This guide covers the semester-wise subjects for diploma, undergraduate, postgraduate, and doctorate levels, core and elective subjects, and the practical training essential for building industry-ready aerospace engineers.

Diploma Aerospace Engineering Syllabus Overview

The diploma course spans 6 semesters covering fundamentals critical for aerospace technology. Key subjects include:

• Engineering Mathematics I & II
• Engineering Chemistry
• Basic Electrical and Electronics Engineering
• Aerodynamics
• Aircraft Structures
• Aircraft Instrumentation
• Spacecraft Power Plant
• Advanced Propulsion Systems
• Aviation Regulations and Safety Management
• Manufacturing Technology
• Industrial Training & Final Project Work

This curriculum balances basic engineering principles with aerospace-specific applications to prepare students for advanced studies or technician roles.

B.Tech Aerospace Engineering Syllabus 2025

The 4-year Bachelor of Technology (B.Tech) Aerospace Engineering syllabus combines core theoretical knowledge with practical application and lab work. Semester-wise subjects cover:

• Calculus and Differential Equations
• Physics and Engineering Graphics
• Computer Programming and Electrical Engineering Basics
• Materials Science and Metallurgy
• Thermodynamics and Fluid Mechanics
• Aerospace Structural Mechanics and Propulsion
• Aerodynamics, Flight Mechanics, and Spaceflight Mechanics
• Control Theory and Rocket Propulsion
• Aircraft Design and Manufacturing Technology
• Heat Transfer, Aeroelasticity, and Structural Dynamics
• Final Year Project and Research Work

Lab sessions and project work are integral, allowing hands-on experience with aerospace structures, propulsion systems, and flight dynamics.

Core Aerospace Engineering Subjects Explained

• Aerodynamics: Fundamentals of airflow over aircraft, lift, drag forces, and flight control surfaces.
• Aerospace Structural Mechanics: Design and analysis of structures to withstand flight stresses ensuring safety and durability.
• Avionics: Electronic systems for navigation, control, and communication onboard aircraft and spacecraft.
• Aircraft Stability and Control: Understanding aircraft balance dynamics and control system designs for stable flight.
• Aeroelasticity: Study of interactions between aerodynamic forces and structural flexibility.

Elective Subjects to Customize Your Learning Path

Students can select from electives based on their career interests and future specializations. Common electives include:

• Aircraft Systems and Instrumentation
• Autonomous Flight and UAV Technology
• Advanced Propulsion and Rocketry
• Airframe Maintenance and Repair
• Aerospace Safety Management
• Space Mission Design and Optimization

These electives allow students to deepen expertise in niche and emerging aerospace areas.

M.Tech Aerospace Engineering Syllabus (Postgraduate)

The 2-year M.Tech program is research-oriented and specialized. Subjects often include:

• Finite Element Methods for aerospace structures
• Advanced Flight Vehicle Aerodynamics
• Aerospace Propulsion Techniques
• Design and Analysis of Composite Materials
• Flight Mechanics and Control Systems
• Research Methodology and Project Work

Students can specialize in areas such as propulsion, avionics, space technology, or structural dynamics.

PhD in Aerospace Engineering: Research and Innovation Focus

PhD candidates conduct original research and study advanced topics like:

• Computational Fluid Dynamics (CFD)
• Hypersonic Aerodynamics
• Advanced Aerospace Propulsion
• Composite Material Technology
• Unmanned Aerial Vehicles (UAVs)
• Thesis and Viva-voce

The PhD syllabus is flexible, shaped by the research area and innovation goals.

Practical Training and Internships

Alongside coursework, internships, workshops, and industrial training are mandatory to bridge theory with real-world aerospace engineering challenges. These experiences prepare students to excel in aerospace industries, research institutions, and space agencies.

Recommended Books for Aerospace Engineering Students

• Aircraft Stability and Control by Bernard Etkin and Lloyd E. Reid
• Introduction to Avionics Systems by R.P.G. Collinson
• Flight Mechanics by John D. Anderson Jr.
• Mechanics and Thermodynamics of Propulsion by Philip Hill
• Fundamentals of Aerodynamics by John D. Anderson

These textbooks cover essential aerospace engineering concepts comprehensively.

Top Aerospace Engineering Colleges in India Offering This Curriculum

Institutions renowned for aerospace education and hands-on training include:

• IIT Bombay
• IIT Madras
• SRM Institute of Science and Technology
• Amity University
• Lovely Professional University
• Chandigarh University

These colleges offer excellent placement opportunities and tie-ups with aerospace and defense organizations like ISRO, HAL, and DRDO.

Conclusion

The Aerospace Engineering syllabus in 2025 holistically integrates core engineering disciplines with aerospace-specific studies, offering students a robust foundation and specialized knowledge. Practical training, diverse electives, and research opportunities ensure graduates are industry-ready and capable of contributing to cutting-edge aerospace innovations globally.

Aspiring aerospace engineers should leverage this syllabus framework to plan academic and career paths effectively.