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B-TECH in Aerospace Engineering at GITAM, Gandhi Institute of Technology and Management
Visakhapatnam, Andhra Pradesh
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About the Specialization
What is Aerospace Engineering at GITAM, Gandhi Institute of Technology and Management Visakhapatnam?
This Aerospace Engineering program at GITAM, Visakhapatnam focuses on the design, development, and operation of aircraft, spacecraft, and related systems. The curriculum is meticulously crafted to meet the evolving demands of India''''s burgeoning aerospace and defense sectors, emphasizing both theoretical foundations and practical applications. It prepares students for roles in aviation, space exploration, and advanced manufacturing industries, contributing to national technological advancements.
Who Should Apply?
This program is ideal for aspiring engineers with a strong aptitude for physics, mathematics, and a profound passion for flight and space exploration. It suits fresh graduates seeking entry into the dynamic aerospace industry, as well as those keen on research and development in cutting-edge areas like rocketry, UAVs, and advanced materials. Specific prerequisites include a strong 10+2 science background and competitive scores in national or institutional entrance examinations.
Why Choose This Course?
Graduates of this program can expect diverse career paths in India''''s public and private sectors, including premier organizations like ISRO, HAL, DRDO, and private airlines, along with IT giants involved in aerospace projects. Entry-level salaries typically range from INR 4-7 lakhs annually, with experienced professionals earning significantly more in specialized roles. The program fosters analytical, design, and problem-solving skills, aligning with industry certifications in CAD/CAM and project management.
Student Success Practices
Foundation Stage
Develop Strong Mathematical and Physics Foundations- (Semester 1-2)
Focus rigorously on mastering calculus, linear algebra, and engineering physics concepts, as these form the bedrock of all advanced aerospace engineering subjects. Utilize online learning platforms and engage in peer-led study groups for deeper understanding.
Tools & Resources
NPTEL courses, Khan Academy, University library resources, Peer study groups
Career Connection
A solid foundation is crucial for excelling in advanced subjects like aerodynamics and structures, directly impacting performance in technical interviews for core engineering roles.
Master Basic Programming and Design Tools- (Semester 1-2)
Gain proficiency in fundamental programming languages like C/Python and familiarize yourself with engineering design software (e.g., AutoCAD, SolidWorks basics) through laboratory sessions, dedicated practice, and online tutorials.
Tools & Resources
HackerRank, GeeksforGeeks for coding practice, Online CAD tutorials, University CAD labs
Career Connection
These computational and design skills are essential for future roles in computational fluid dynamics (CFD), finite element analysis (FEA), and CAD-based design in the aerospace industry.
Engage with Engineering Workshops and Hands-on Activities- (Semester 1-2)
Actively participate in all engineering workshops (like fitting, carpentry, welding) and basic manufacturing process labs. Seek additional opportunities for hands-on experience by joining relevant technical clubs or model-making initiatives.
Tools & Resources
College workshop facilities, Student technical clubs (e.g., aeromodelling clubs), DIY project kits
Career Connection
Practical exposure to manufacturing processes provides valuable insights for design, production, and maintenance roles, making candidates more competitive in placement drives and future job functions.
Intermediate Stage
Deep Dive into Core Aerospace Concepts- (Semester 3-5)
Pay close attention to Aerodynamics, Aircraft Structures, and Propulsion courses. Supplement classroom learning with research papers, aerospace magazines, and online documentaries to broaden understanding of current industry trends and innovations.
Tools & Resources
AIAA journals, NPTEL aerospace engineering courses, Aerospace America magazine, Scholar.google.com
Career Connection
Strong theoretical knowledge in core aerospace areas is a non-negotiable requirement for specialized roles in aerospace design, analysis, research, and development companies.
Participate in Technical Competitions and Projects- (Semester 3-5)
Join college teams for national or international aero-modeling competitions (like SAE Aero Design India), drone challenges, or satellite design contests. Initiate mini-projects under faculty guidance to apply theoretical knowledge to practical problems.
Tools & Resources
Student technical clubs, Faculty mentors, Engineering design and simulation software licenses, Competition rulebooks
Career Connection
Project experience and competition wins demonstrate initiative, problem-solving skills, and teamwork, which are highly valued by recruiters for internships and full-time placements.
Network with Industry Professionals and Alumni- (Semester 3-5)
Attend industry seminars, webinars, and guest lectures hosted by the department or professional bodies. Connect with alumni and industry experts on platforms like LinkedIn to seek mentorship, internship advice, and insights into various career paths within aerospace.
Tools & Resources
LinkedIn, Industry conferences and expos, Alumni network portal (if available), Professional body events (e.g., Aeronautical Society of India)
Career Connection
Networking can open doors to internship opportunities, provide crucial industry insights, and lead to valuable job referrals, which are critical for securing positions in a competitive market.
Advanced Stage
Undertake Intensive Internship/Industrial Training- (Semester 7)
Secure an internship with a reputable aerospace company (e.g., HAL, ISRO, DRDO, private MROs, airlines) to gain real-world exposure to aircraft/spacecraft design, manufacturing, or maintenance processes. Focus on applying practical skills and learning industry best practices.
Tools & Resources
University placement cell, Company career portals, Professional networking, Industry internship programs
Career Connection
Internships are often a direct pipeline to full-time employment and provide invaluable practical experience that is highly sought after by aerospace employers in India.
Excel in Capstone Project and Specialization- (Semester 6-8)
Dedicate significant effort to the final year project, aiming for innovative solutions or in-depth research. Choose professional electives wisely to specialize in areas like propulsion, structures, or avionics, aligning with your specific career aspirations and industry demand.
Tools & Resources
Research labs, Faculty advisors, Advanced simulation software (e.g., ANSYS, CATIA), Technical literature databases
Career Connection
A strong final project and demonstrated specialized knowledge are key differentiators during placement interviews and for pursuing higher studies or research careers in niche aerospace domains.
Prepare Rigorously for Placements and Higher Studies- (Semester 7-8)
Actively participate in campus placement drives, refining resume writing, group discussion, and interview skills. For those aspiring for higher studies, prepare diligently for competitive examinations like GRE/GATE/TOEFL and research top universities/programs in India and abroad.
Tools & Resources
Placement cell workshops, Mock interview sessions, Online test preparation platforms, Career counseling services
Career Connection
Structured and focused preparation significantly increases success rates for securing placements in leading aerospace companies or gaining admission to prestigious graduate programs for advanced qualifications.
Program Structure and Curriculum
Eligibility:
- Pass in 10+2 / 12th examination or its equivalent with a minimum of 60% aggregate marks in Physics, Chemistry and Mathematics and also qualified in GITAM Admission Test (GAT) (UGTP) / JEE (Mains) / SAT / AP EAMCET / TS EAMCET.
Duration: 4 years / 8 semesters
Credits: 160 Credits
Assessment: Internal: 50%, External: 50%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| GEL101 | Communicative English | Core | 3 | Communication Skills, Grammar and Vocabulary, Reading Comprehension, Writing Skills, Presentation Skills |
| MAT101 | Engineering Mathematics – I | Core | 3 | Differential Calculus, Integral Calculus, Sequences and Series, Multivariable Calculus, Vector Calculus |
| PHY101 | Engineering Physics | Core | 3 | Waves and Oscillations, Quantum Mechanics, Solid State Physics, Optics, Electromagnetism |
| CHY101 | Engineering Chemistry | Core | 3 | Water Technology, Electrochemistry, Corrosion, Polymer Chemistry, Material Science |
| GEL103 | Engineering Graphics and Design | Core | 3 | Engineering Drawing Standards, Orthographic Projections, Isometric Views, Sectional Views, AutoCAD Basics |
| CSC101 | Programming for Problem Solving | Core | 3 | Introduction to C Programming, Operators and Expressions, Control Statements, Functions and Modules, Arrays and Pointers |
| PHY121 | Engineering Physics Lab | Lab | 1.5 | Lasers and Fiber Optics, Spectroscopy, Semiconductor Devices, Magnetic Fields, Ultrasonics |
| CHY121 | Engineering Chemistry Lab | Lab | 1.5 | Water Quality Analysis, Acid-Base Titrations, Conductometry, Polymer Synthesis, Corrosion Testing |
| GEL121 | Communicative English Lab | Lab | 1.5 | Oral Communication Practice, Listening Comprehension, Presentation Skills, Group Discussions, Interview Preparation |
| CSC121 | Programming for Problem Solving Lab | Lab | 1.5 | C Programming Exercises, Conditional and Loop Structures, Function Implementation, Array and String Operations, Pointers and Structures |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MAT102 | Engineering Mathematics – II | Core | 3 | Linear Algebra, First Order Differential Equations, Higher Order Differential Equations, Laplace Transforms, Fourier Series |
| EEE101 | Basic Electrical and Electronics Engineering | Core | 3 | DC Circuit Analysis, AC Circuit Analysis, Transformers, Diodes and Transistors, Operational Amplifiers |
| MEE101 | Engineering Mechanics | Core | 3 | Forces and Moments, Equilibrium of Rigid Bodies, Friction, Work and Energy, Dynamics of Particles |
| AEE101 | Introduction to Aerospace Engineering | Core | 3 | History of Flight, Aircraft Components, Basic Aerodynamics, Spaceflight Fundamentals, Aerospace Industry Overview |
| BAE102 | Basic Manufacturing Processes | Core | 3 | Metal Casting, Forming Processes, Machining Processes, Joining Processes (Welding), Additive Manufacturing |
| GEL102 | Environmental Science | Core | 3 | Ecosystems and Biodiversity, Environmental Pollution, Natural Resources, Climate Change, Environmental Management |
| EEE121 | Basic Electrical and Electronics Engineering Lab | Lab | 1.5 | Verification of Circuit Laws, AC Circuit Measurements, PN Junction Diode Characteristics, Rectifiers and Filters, Transistor Amplifier Circuits |
| MEE122 | Engineering Workshop Lab | Lab | 1.5 | Fitting Operations, Carpentry Joints, Welding Techniques, Sheet Metal Working, Basic Machining Practice |
| BAE122 | Basic Manufacturing Processes Lab | Lab | 1.5 | Foundry Practice, Lathe Operations, Milling and Shaping, Advanced Welding, 3D Printing |
| GEL122 | Environmental Science Lab | Lab | 1.5 | Water Quality Parameters, Soil Analysis, Air Pollution Monitoring, Noise Level Measurement, Waste Management Studies |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MAT201 | Engineering Mathematics – III | Core | 3 | Complex Analysis, Vector Differential Calculus, Vector Integral Calculus, Partial Differential Equations, Numerical Methods |
| AEE201 | Aerodynamics – I | Core | 3 | Fluid Properties, Flow Classification, Governing Equations of Fluid Flow, Bernoulli''''s Equation, Airfoil Characteristics |
| AEE202 | Aircraft Structures – I | Core | 3 | Stress and Strain, Elasticity and Plasticity, Beams and Columns, Thin-Walled Structures, Failure Theories |
| AEE203 | Thermodynamics and Propulsion | Core | 3 | Laws of Thermodynamics, Thermodynamic Cycles, Jet Propulsion Principles, Rocket Propulsion Fundamentals, Engine Performance Parameters |
| AEE204 | Solid Mechanics | Core | 3 | Axial Loading, Torsion, Bending of Beams, Shear Force and Bending Moment, Deflection of Beams |
| AEE241 | Aerodynamics Lab – I | Lab | 1.5 | Wind Tunnel Testing, Flow Visualization Techniques, Pressure Measurement, Lift and Drag Measurement, Boundary Layer Studies |
| AEE242 | Aircraft Structures Lab – I | Lab | 1.5 | Strain Gauge Application, Tensile Testing of Materials, Beam Deflection Experiments, Column Buckling, Stress Analysis Techniques |
| AEE243 | Thermodynamics and Propulsion Lab | Lab | 1.5 | IC Engine Performance, Compressor and Turbine Testing, Heat Transfer Measurements, Combustion Analysis, Rocket Motor Performance |
| GEL241 | Professional Skill Development | Skill Development | 1.5 | Interpersonal Communication, Teamwork and Collaboration, Leadership Skills, Problem-Solving Techniques, Professional Ethics |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| AEE205 | Aerodynamics – II | Core | 3 | Compressible Flow Fundamentals, Normal and Oblique Shock Waves, Prandtl-Meyer Expansion Waves, High Lift Devices, Wing Theory |
| AEE206 | Aircraft Structures – II | Core | 3 | Aeroelasticity, Buckling of Plates and Shells, Composite Material Behavior, Fatigue and Fracture Mechanics, Structural Dynamics |
| AEE207 | Flight Mechanics | Core | 3 | Aircraft Performance, Static Stability, Dynamic Stability, Equations of Motion, Flight Control Systems |
| AEE208 | Aeroplane General Engineering and Maintenance | Core | 3 | Aircraft Systems Overview, Maintenance Practices, Airworthiness Regulations, Quality Control in Aviation, Aircraft Inspection |
| AEE305 | High Speed Aerodynamics | Professional Elective – I | 3 | Isentropic Flow Relations, Normal and Oblique Shock Waves, Prandtl-Meyer Flow, Supersonic Airfoils, Hypersonic Flow Phenomena |
| AEE306 | Computational Fluid Dynamics Fundamentals | Professional Elective – II | 3 | Governing Equations of Fluid Flow, Discretization Techniques, Finite Difference Method, Finite Volume Method, Grid Generation |
| AEE244 | Aerodynamics Lab – II | Lab | 1.5 | Supersonic Wind Tunnel Experiments, Shock Wave Visualization, Pressure Distribution Measurement, Drag Reduction Techniques, Flow Control Methods |
| AEE245 | Aircraft Structures Lab – II | Lab | 1.5 | Composite Material Testing, Fatigue and Fracture Testing, Vibration Analysis, Aeroelastic Testing, Structural Health Monitoring |
| AEE246 | Flight Mechanics Lab | Lab | 1.5 | Aircraft Performance Analysis, Stability Augmentation Systems, Flight Simulator Operations, Flight Control Surface Response, Drone Flight Dynamics |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| AEE301 | Propulsion – II | Core | 3 | Gas Turbine Engine Cycles, Turbofan and Turboprop Engines, Ramjets and Scramjets, Rocket Engine Components, Hybrid Propulsion Systems |
| AEE302 | Aircraft Systems and Instruments | Core | 3 | Hydraulic Systems, Pneumatic Systems, Electrical Systems, Flight Control Systems, Avionics and Navigation Instruments |
| AEE303 | Engineering Design and Analysis | Core | 3 | Design Process Methodology, Material Selection Criteria, Stress Analysis Techniques, CAD/CAM Integration, Design Optimization |
| AEE304 | Vibrations and Aeroelasticity | Core | 3 | Single-Degree-of-Freedom Systems, Multi-Degree-of-Freedom Systems, Free and Forced Vibrations, Damping and Resonance, Flutter and Divergence |
| AEE307 | Finite Element Method for Aerospace Applications | Professional Elective – III | 3 | FEM Fundamentals, Element Formulation, Stiffness Matrix Assembly, Boundary Conditions, Stress and Displacement Analysis |
| AEE308 | Boundary Layer Theory | Professional Elective – IV | 3 | Boundary Layer Equations, Laminar Boundary Layers, Turbulent Boundary Layers, Flow Separation, Heat Transfer in Boundary Layers |
| AEE341 | Propulsion Lab – II | Lab | 1.5 | Gas Turbine Engine Testing, Ramjet Performance Analysis, Rocket Nozzle Design and Testing, Propeller Efficiency Measurement, Fuel System Characterization |
| AEE342 | Aircraft Systems and Instruments Lab | Lab | 1.5 | Hydraulic System Operation, Pneumatic System Testing, Avionics System Integration, Flight Simulator Training, Instrument Calibration |
| GEL341 | Entrepreneurship and Innovation | Skill Development | 1.5 | Business Model Canvas, Market Analysis and Strategy, Startup Ecosystem, Intellectual Property Rights, Venture Capital and Funding |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| AEE309 | Aerospace Vehicle Design | Core | 3 | Aircraft Conceptual Design, Mission Analysis, Configuration Layout, Weight and Balance Estimation, Performance Prediction |
| AEE310 | Computational Fluid Dynamics | Core | 3 | Finite Volume Method, Navier-Stokes Equations, Turbulence Modeling, Meshing and Grid Generation, CFD Software Applications |
| AEE311 | Composite Materials and Structures | Core | 3 | Composite Material Properties, Fabrication Processes, Laminated Plate Theory, Damage Tolerance, Repair Techniques for Composites |
| AEE312 | Spaceflight Mechanics | Professional Elective – V | 3 | Orbital Mechanics Fundamentals, Two-Body Problem, Kepler''''s Laws of Planetary Motion, Orbit Transfer Maneuvers, Re-entry Mechanics |
| AEE313 | Aircraft Stability and Control | Professional Elective – VI | 3 | Static Stability Analysis, Dynamic Stability Analysis, Control Surface Design, Autopilot Systems, Aircraft Handling Qualities |
| GEL301 | Technical Writing | Open Elective – I | 3 | Elements of Technical Writing, Report Writing, Research Papers and Proposals, Technical Documentation, Style, Grammar, and Editing |
| AEE343 | CAE Lab | Lab | 1.5 | Finite Element Analysis Software, CFD Simulation Tools, CAD Modeling and Assembly, Structural Optimization, Design Validation |
| AEE344 | Aerospace Propulsion Lab | Lab | 1.5 | Gas Turbine Cycle Analysis, Ramjet Engine Performance, Rocket Nozzle Performance, Combustion Efficiency, Thrust Measurement |
| AEE391 | Project Work – I | Project | 1.5 | Problem Identification, Literature Review, Methodology Development, Preliminary Design, Project Planning |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| AEE401 | Rocket Propulsion and Spacecraft Systems | Core | 3 | Solid Propellant Rockets, Liquid Propellant Rockets, Hybrid Rockets, Satellite Subsystems, Spacecraft Structures |
| AEE402 | Aircraft Production Technology | Core | 3 | Manufacturing Processes in Aviation, Aircraft Assembly Techniques, Quality Assurance and Control, Automation in Aerospace Manufacturing, Lean Manufacturing Principles |
| AEE403 | Hypersonic Aerodynamics | Professional Elective – VII | 3 | High Temperature Gas Dynamics, Shock Layer Flow, Viscous Interactions, Reentry Vehicle Aerodynamics, Scramjet Inlets and Nozzles |
| AEE404 | Experimental Aerodynamics | Professional Elective – VIII | 3 | Wind Tunnel Design and Operation, Flow Measurement Techniques, Data Acquisition Systems, Pressure and Velocity Transducers, Hot-Wire Anemometry |
| GEL302 | Quantitative Aptitude | Open Elective – II | 3 | Number Systems and HCF/LCM, Averages, Ratios, Percentages, Profit and Loss, Time, Speed, Distance, Data Interpretation |
| AEE491 | Project Work – II | Project | 6 | Detailed Design and Analysis, Prototyping/Simulation, Experimental Setup and Testing, Data Collection and Interpretation, Mid-term Project Report |
| AEE493 | Internship/Industrial Training | Internship | 3 | Industry Work Exposure, Application of Engineering Principles, Professional Networking, Technical Report Preparation, Presentation of Work |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| AEE492 | Project Work – III | Project | 10 | Advanced Research and Development, Final Prototype/System Implementation, Comprehensive Testing and Validation, Detailed Thesis Writing, Viva Voce Examination |
| AEE405 | Satellite Technology | Professional Elective – IX | 3 | Satellite Orbits and Trajectories, Satellite Communication Systems, Remote Sensing Principles, Navigation Satellite Systems, Space Mission Design |
| AEE406 | Unmanned Aerial Vehicles | Professional Elective – X | 3 | UAV Classification and Architectures, UAV Aerodynamics, Flight Control Systems for UAVs, Navigation and Guidance, UAV Applications and Regulations |
| GEL401 | Universal Human Values and Ethics | Core | 1 | Self-Exploration and Self-Investigation, Harmony in the Family and Society, Universal Human Values, Professional Ethics, Environmental Ethics |
