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B-TECH in Aerospace Engineering at SRM Institute of Science and Technology
Chengalpattu, Tamil Nadu
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About the Specialization
What is Aerospace Engineering at SRM Institute of Science and Technology Chengalpattu?
This Aerospace Engineering program at SRM Institute of Science and Technology focuses on equipping students with fundamental and advanced knowledge across aircraft design, propulsion, aerodynamics, and space technology. It integrates theoretical concepts with practical applications, preparing graduates for the dynamic Indian aerospace sector, which is witnessing significant growth in both commercial and defense domains.
Who Should Apply?
This program is ideal for fresh graduates with a strong aptitude for physics and mathematics, seeking entry into the aerospace and defense industries. It also caters to individuals passionate about aircraft design, space exploration, and aviation technology, providing a robust foundation for careers in research, development, and maintenance within the Indian and global aerospace landscape.
Why Choose This Course?
Graduates of this program can expect diverse India-specific career paths in organizations like ISRO, HAL, DRDO, and private airlines. Entry-level salaries typically range from INR 4-7 LPA, with significant growth potential for experienced professionals. The curriculum prepares students for roles in aircraft manufacturing, MRO (Maintenance, Repair, and Overhaul), and R&D, aligning with certifications in aviation safety and quality management.
Student Success Practices
Foundation Stage
Build Strong Mathematical & Scientific Fundamentals- (Semester 1-2)
Dedicate extra time to master core concepts in Engineering Mathematics and Physics. These subjects form the bedrock of all advanced aerospace topics. Regularly solve problems, understand derivations, and apply concepts to basic engineering scenarios.
Tools & Resources
NPTEL courses for Engineering Maths/Physics, Khan Academy, Specific textbooks recommended by faculty, Peer study groups, SRMIST''''s academic support centers
Career Connection
A solid grasp of fundamentals is crucial for understanding advanced aerodynamics, propulsion, and structural mechanics, which are essential for design and analysis roles in aerospace.
Develop Foundational Programming Skills in Python- (Semester 1-2)
Actively engage in the ''''Programming using Python'''' course, focusing on practical application. Practice coding regularly to solve engineering problems, develop simple simulations, and understand data manipulation. Participate in coding challenges to enhance problem-solving.
Tools & Resources
Online platforms like HackerRank/CodeChef, Jupyter Notebook, Official Python documentation, Python libraries for scientific computing (NumPy, SciPy)
Career Connection
Programming skills are increasingly vital in aerospace for CFD, FEM, data analysis, and automation, opening doors to roles in computational design and simulation.
Cultivate Aerospace Interest through Early Exposure- (Semester 1-2)
Beyond coursework, actively seek out information about current aerospace developments, historical milestones, and future trends. Attend department seminars, join aerospace clubs, and visit local aviation museums or air shows (if opportunities arise).
Tools & Resources
Aerospace journals (e.g., Aviation Week & Space Technology), YouTube channels on aerospace, Documentaries, SRMIST Aerospace Engineering student clubs
Career Connection
Early exposure fuels passion, helps in identifying specific areas of interest (e.g., propulsion, structures, avionics), and provides context for future career decisions.
Intermediate Stage
Master Core Aerospace Concepts with Practical Application- (Semester 3-5)
Focus intently on core subjects like Fluid Mechanics, Solid Mechanics, Aerodynamics, and Aerospace Propulsion. Seek opportunities to apply theoretical knowledge in lab sessions, design challenges, and mini-projects. Understand the physical significance behind equations.
Tools & Resources
MATLAB/Simulink for simulations, SolidWorks/CATIA for CAD, CFD/FEA software introductions, Hands-on lab experiments
Career Connection
Strong understanding of these core areas is directly transferable to design, analysis, and R&D roles in aircraft and spacecraft development.
Pursue Internships and Industrial Training- (Semester 4-6 (especially summer breaks))
Actively seek and participate in internships during summer breaks or as part of the curriculum. Focus on gaining hands-on experience in manufacturing, MRO, or design departments of aerospace companies (e.g., HAL, private MROs, startups).
Tools & Resources
SRMIST Career Development Centre, LinkedIn, Industry contacts, Professional networking events
Career Connection
Internships provide invaluable industry exposure, practical skill development, and networking opportunities, significantly boosting placement prospects and clarifying career paths.
Engage in Departmental Research & Projects- (Semester 3-5)
Collaborate with faculty on research projects or take up challenging mini-projects, perhaps related to CFD, FEA, or experimental aerodynamics. This helps develop research aptitude, technical writing, and problem-solving skills beyond the curriculum.
Tools & Resources
Access to department labs, Research papers (IEEE, AIAA), Faculty mentorship, Project funding if available
Career Connection
Participation in research projects enhances a resume, prepares students for higher studies (M.Tech/Ph.D.), and offers a competitive edge for R&D roles.
Advanced Stage
Specialize through Electives and Advanced Tools- (Semester 6-8)
Carefully choose professional and open electives that align with your career interests, whether it''''s space technology, drone design, or advanced materials. Gain proficiency in industry-standard software like ANSYS, CATIA, or SolidWorks for complex simulations and designs.
Tools & Resources
Advanced modules of ANSYS Fluent/Workbench, CATIA V5/V6, MATLAB scripting, Specialized textbooks for chosen electives
Career Connection
Specialization makes you a more targeted candidate for specific roles and industries, demonstrating deep expertise and readiness for advanced technical challenges.
Excel in Capstone Project & Placement Preparation- (Semester 7-8)
Treat the final year project (Phase I & II) as a flagship work demonstrating all learned skills. Focus on innovative solutions, rigorous analysis, and clear documentation. Simultaneously, actively participate in placement training, mock interviews, and resume building workshops.
Tools & Resources
Project management software, Academic databases, SRMIST Placement Cell resources, Online interview preparation platforms
Career Connection
A well-executed capstone project is a strong talking point in interviews, showcasing practical engineering abilities. Effective placement preparation is crucial for securing desirable job offers.
Build a Professional Network & Develop Soft Skills- (Semester 6-8)
Attend national and international aerospace conferences, workshops, and industry expos. Network with professionals, alumni, and recruiters. Actively work on communication, teamwork, and leadership skills, which are highly valued in the aerospace industry.
Tools & Resources
LinkedIn, Professional societies (e.g., Aeronautical Society of India), SRMIST alumni network, Public speaking clubs
Career Connection
Networking opens doors to hidden job opportunities and mentorship. Strong soft skills ensure career progression and leadership roles within organizations.
Program Structure and Curriculum
Eligibility:
- A pass in 10+2 or equivalent examination with a minimum of 60% aggregate in Physics, Chemistry, and Mathematics (PCM) or Physics, Chemistry, Mathematics, and Biology (PCMB). For International Baccalaureate (IB) candidates, a minimum of 24 points with PCM/PCMB.
Duration: 4 years / 8 semesters
Credits: 164 Credits
Assessment: Internal: 50%, External: 50%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21HS101T | English | Core | 3 | Communication Skills, Reading Comprehension, Writing Skills, Grammar & Vocabulary, Presentation Skills |
| 21BS101T | Engineering Mathematics I | Core | 4 | Differential Calculus, Integral Calculus, Multivariable Calculus, Vector Calculus, Differential Equations |
| 21BS102T | Engineering Physics | Core | 3 | Optics, Wave Mechanics, Solid State Physics, Quantum Physics, Material Science |
| 21BS103L | Engineering Physics Lab | Lab | 1 | Laser experiments, Optical fiber communication, Ultrasonic wave analysis, Electrical & Electronic measurements |
| 21GE101T | Engineering Graphics & Design | Core | 3 | Engineering Curves, Orthographic Projections, Sectional Views, Isometric Projections, AutoCAD Basics |
| 21GE102L | Engineering Graphics & Design Lab | Lab | 1 | Drafting using CAD software, Creating 2D/3D models, Assembly drawings, Sheet metal drawings |
| 21PC101P | Programming using Python | Core | 3 | Python Fundamentals, Data Structures, Control Flow, Functions & Modules, Object-Oriented Programming |
| 21PC102L | Programming using Python Lab | Lab | 1 | Python programming exercises, Debugging, File I/O operations, Data visualization |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21HS102T | Value Education | Core | 3 | Human Values, Ethics, Environmental Ethics, Social Responsibility, Professional Ethics |
| 21BS104T | Engineering Mathematics II | Core | 4 | Matrices, Vector Spaces, Eigenvalues & Eigenvectors, Laplace Transforms, Fourier Series |
| 21BS105T | Engineering Chemistry | Core | 3 | Electrochemistry, Corrosion, Water Treatment, Polymers, Nanomaterials |
| 21BS106L | Engineering Chemistry Lab | Lab | 1 | Titrations, pH measurements, Chemical analysis, Water quality testing |
| 21GE103T | Basic Electrical and Electronics Engineering | Core | 3 | DC/AC Circuits, Diodes & Transistors, Operational Amplifiers, Digital Electronics, Electrical Machines |
| 21GE104L | Basic Electrical and Electronics Engineering Lab | Lab | 1 | Circuit analysis, Component testing, Digital logic gates, Rectifiers |
| 21AE101P | Introduction to Aerospace Engineering | Core | 3 | History of Flight, Aircraft Components, Basic Aerodynamics, Rocket Propulsion, Space Exploration |
| 21AE102L | Basic Aerodynamics & Flight Lab | Lab | 1 | Wind tunnel experiments, Aerofoil characteristics, Flight simulation, Drag & Lift measurements |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21AE201T | Fluid Mechanics | Core | 4 | Fluid Properties, Fluid Statics, Fluid Dynamics, Boundary Layer Theory, Compressible Flow |
| 21AE202T | Solid Mechanics | Core | 4 | Stress & Strain, Torsion, Bending of Beams, Deflection of Beams, Columns & Struts |
| 21AE203T | Aircraft Systems | Core | 3 | Aircraft Structures, Landing Gear, Hydraulic Systems, Environmental Control, Avionics |
| 21AE204T | Aerospace Materials | Core | 3 | Metallic Alloys, Composites, Smart Materials, Material Testing, Manufacturing Processes |
| 21AE205L | Fluid Mechanics & Aerodynamics Lab | Lab | 1 | Flow visualization, Pressure measurements, Boundary layer studies, Bernoulli''''s theorem verification |
| 21AE206L | Aircraft Structures Lab | Lab | 1 | Stress analysis of structural elements, Beam deflection, Buckling tests, Strain gauge applications |
| 21BS201T | Probability and Statistics | Core | 3 | Probability Theory, Random Variables, Statistical Distributions, Hypothesis Testing, Regression Analysis |
| 21AE207J | Technical Skill Training I | Project | 1 | Technical communication, Problem-solving, Software tools, Report writing, Teamwork |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21AE208T | Aerodynamics | Core | 4 | Basic Aerodynamics, Subsonic Flow, Supersonic Flow, Airfoil Theory, Wing Theory |
| 21AE209T | Thermodynamics & Heat Transfer | Core | 4 | Laws of Thermodynamics, Entropy, Gas Mixtures, Conduction, Convection, Radiation |
| 21AE210T | Aircraft Performance | Core | 3 | Drag & Thrust, Take-off & Landing, Climb Performance, Range & Endurance, High-Speed Flight |
| 21AE211T | Aircraft Structures | Core | 3 | Thin-Walled Structures, Fatigue, Fracture Mechanics, Structural Dynamics, Composite Structures |
| 21AE212L | Aircraft Systems & Control Lab | Lab | 1 | Aircraft hydraulic systems, Landing gear operation, Flight control surfaces, Autopilot principles |
| 21AE213L | Propulsion Lab | Lab | 1 | Jet engine performance, Rocket engine thrust measurement, Propeller characteristics |
| 21AE214J | Design Thinking | Project | 1 | Empathize, Define, Ideate, Prototype, Test, Innovation, Human-centered design |
| 21AE215E | Professional Elective I | Elective | 3 | Elective content varies based on selection |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21AE301T | Aerospace Propulsion | Core | 4 | Aircraft Gas Turbines, Ramjets, Scramjets, Rocket Propulsion, Hybrid Propulsion |
| 21AE302T | Flight Dynamics | Core | 4 | Aircraft Stability, Longitudinal Stability, Lateral-Directional Stability, Control Surface Sizing, Flight Control Systems |
| 21AE303T | Vibrations & Aeroelasticity | Core | 3 | Single-Degree-of-Freedom Systems, Multi-Degree-of-Freedom Systems, Forced Vibrations, Flutter, Divergence |
| 21AE304T | Computational Fluid Dynamics (CFD) | Core | 3 | Governing Equations, Finite Difference Method, Finite Volume Method, Grid Generation, Turbulence Modeling |
| 21AE305L | CAD/CAM Lab | Lab | 1 | Geometric modeling, Assembly design, Tool path generation, CNC programming, Simulation |
| 21AE306L | Aircraft Design Project I | Project | 1 | Conceptual design, Preliminary design, Performance analysis, Weight estimation, Configuration layout |
| 21AE307E | Professional Elective II | Elective | 3 | Elective content varies based on selection |
| 21AE308E | Professional Elective III | Elective | 3 | Elective content varies based on selection |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21AE309T | Control Engineering | Core | 4 | System Modeling, Stability Analysis, Root Locus, Frequency Response, PID Controllers |
| 21AE310T | Air Transportation & Airport Management | Core | 3 | Air Traffic Control, Airport Operations, Aviation Safety, Airline Economics, Cargo Management |
| 21AE311T | Finite Element Analysis (FEA) | Core | 3 | Introduction to FEM, Truss Elements, Beam Elements, 2D/3D Elements, Stress Analysis |
| 21AE312L | Aerospace Design & Analysis Lab | Lab | 1 | CAD software for aircraft components, FEA software for structural analysis, CFD for flow simulation |
| 21AE313L | Mini Project | Project | 1 | Problem identification, Literature review, Methodology, Implementation, Report writing |
| 21AE314E | Professional Elective IV | Elective | 3 | Elective content varies based on selection |
| 21AE315E | Professional Elective V | Elective | 3 | Elective content varies based on selection |
| 21AE316G | Internship / Industrial Training | Project | 2 | Industry exposure, Practical skills, Project implementation, Professional development, Report submission |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21AE401T | Avionics & Aircraft Instrumentation | Core | 4 | Flight Instruments, Navigation Systems, Communication Systems, Autopilot, Flight Management Systems |
| 21AE402T | Space Mechanics | Core | 3 | Orbital Mechanics, Two-Body Problem, Kepler''''s Laws, Launch Vehicles, Satellite Systems |
| 21AE403T | Maintenance, Repair & Overhaul (MRO) | Core | 3 | Aircraft Maintenance Practices, Airworthiness, Troubleshooting, Condition Monitoring, Aviation Regulations |
| 21AE404L | Aircraft Systems Integration Lab | Lab | 1 | Integration of avionics systems, Sensor calibration, Data acquisition, System testing |
| 21AE405P | Project Phase I | Project | 6 | Problem definition, Literature survey, Methodology development, Experimental setup, Initial results |
| 21AE406E | Professional Elective VI | Elective | 3 | Elective content varies based on selection |
| 21AE407G | Open Elective I | Elective | 3 | Elective content varies based on selection from other departments |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 21AE408T | Aviation Safety Management Systems | Core | 3 | Safety Management Principles, Risk Assessment, Human Factors, Incident Investigation, Safety Culture |
| 21AE409P | Project Phase II | Project | 7 | Advanced analysis, Optimization, Simulation, Prototype development, Thesis writing, Presentation |
| 21AE410G | Open Elective II | Elective | 3 | Elective content varies based on selection from other departments |
