Post Graduate Program in Aerospace Engineering

Enroll in the Online Post Graduate Program in Aerospace Engineering, Aerospace Engineering is a multidisciplinary field focused on the design, development, testing, and production of aircraft, spacecraft, and related systems and equipment. It combines principles from physics, mathematics, and engineering to tackle the challenges of atmospheric and space flight.

Program Overview

The Post Graduate Program in Aerospace Engineering aims to develop industry-ready aerospace engineers with advanced expertise in aerodynamics, propulsion, materials, avionics, and control systems. This program is designed to equip students with the skills required for cutting-edge research, design, and development in the aerospace and aviation industries.

By enrolling in this program, you will:

  • Master the mathematics and physics essential to aerospace engineering
  • Gain expertise in computational methods and simulation tools used in aerospace
  • Understand the principles of aerodynamics, propulsion, and aerospace structures
  • Acquire a solid grounding in materials science and testing methodologies
  • Build hands-on experience with aerospace design software and tools
  • Delve into the control systems and avionics that ensure safe and efficient flight
  • Develop practical knowledge in UAVs, space systems, and satellite engineering
  • Work on real-world projects and case studies with industry relevance
  • Master professional engineering practices and collaborate with industry experts

Key highlights of the Aerospace Engineering course

  • In-Depth Aerospace Core Knowledge
  • Specialized Training in Computational Tools and Software
  • Advanced Mathematics and Physics Applications
  • Cutting-Edge Electives in UAVs, Space Systems, and Hypersonics
  • Capstone Project and Industry Internship
  • 50+ successful batches
  • 12 years of excellence
  • Professional Development and Career Preparation
  • Global Career Opportunities
  • Research Opportunities in Aerospace Innovations
  • 1:1 mentorship
  • 150+ hours of learning content
  • Comprehensive Hands-On Laboratory Experience

Skills you will learn

Technical and Analytical Skills

  • Aerodynamics and Flight Mechanics
  • Propulsion and Thermodynamics
  • Structural Analysis and Materials Science
  • Control Systems and Avionics
  • Orbital Mechanics and Space Systems Engineering

Software and Computational Skills

  • Computational Fluid Dynamics (CFD) and Finite Element Analysis (FEA)
  • Programming and Simulation
  • 3D Modeling and Design Software

Syllabus

On a daily basis, we collaborate with companies to refine our curriculum. Here is the list of courses included in this program:

Industry relevant syllabus

Learn top in-demand tools

Delve deep into Aerospace Engineering with our program, mastering critical skills and employing powerful tools to drive innovation and solve complex aerospace challenges. Gain expertise in areas such as aerodynamics, propulsion, structural analysis, and control systems, and leverage industry-leading software and simulations to bring cutting-edge designs to life. Prepare to contribute to the future of aviation, space exploration, and advanced aerospace technology.

Why enroll in the Program?

Develop a deep understanding of Aerospace Engineering, enhancing your expertise in aerodynamics, propulsion, avionics, and control systems, enabling you to become a leader in the field.
Stay updated with the latest technological advancements and industry practices prevalent in aerospace design, research, and manufacturing.
Gain extensive hands-on experience with state-of-the-art tools like CATIA, SolidWorks, ANSYS, MATLAB, Simulink, and more, preparing you with job-ready skills to excel in the aerospace industry.

Upon completing this program, you will possess the skills required to apply for the following job roles:

  • Aerospace Engineer
  • Aircraft Design Engineer
  • Propulsion Engineer
  • Aerodynamics Specialist
  • Space Systems Engineer

You also have the option to pursue further education in the following domains:

  • Masters in Aerospace Engineering
  • Masters in Aeronautical Engineering
  • Masters in Space Systems Engineering
  • Masters in Propulsion Systems
  • Masters in Aerospace Structures and Materials

With this program, you will be equipped to tackle complex aerospace challenges and contribute to cutting-edge developments in aviation, space exploration, and advanced aerospace technologies.

Course Syllabus Curriculum

On a daily basis we talk to companies expert in these track to fine tune our curriculum. In total, there are  4 Semesters that are available in this track

Semester 1: Foundation of Aerospace Engineering

  • Overview of Aerospace Industry
  • History and Evolution of Aviation and Space Exploration
  • Types of Aircraft and Space Vehicles
  • Basics of Aerospace Engineering Disciplines (Aerodynamics, Propulsion, Structures, Controls)
  • Differential Equations in Aerospace Applications
  • Linear Algebra for Structural Analysis and Control Systems
  • Complex Analysis and Fourier Series for Signal Processing
  • Numerical Methods in Aerospace Engineering
  • Fundamentals of Fluid Mechanics
  • Airfoil and Wing Theory
  • Lift, Drag, and Moment Coefficients
  • Boundary Layers and Flow Separation
  • Compressibility Effects in Subsonic Flows
  • Statics and Dynamics of Rigid Bodies
  • Mechanics of Materials and Stress Analysis
  • Beam Theory and Torsion in Aerospace Structures
  • Basic Concepts in Vibrations and Dynamics of Aerospace Structures
  • Introduction to 3D Modeling Tools: CATIA, SolidWorks
  • Basics of 3D Geometry and Assembly
  • Simulating Mechanisms and Motion Analysis
  • CAD Drafting for Aerospace Applications

Semester 2: Core Concepts and Advanced Fundamentals

  • Thermodynamics and Fluid Dynamics in Propulsion
  • Jet Engines: Turbojet, Turbofan, and Ramjet Engines
  • Rocket Propulsion: Liquid, Solid, and Hybrid Propellants
  • Thrust, Specific Impulse, and Propulsion Efficiency
  • Environmental Impacts of Aerospace Propulsion Systems
  • Fundamentals of Control Theory
  • Flight Control Systems and Stability Analysis
  • Feedback and Control Loops in Aircraft Systems
  • Autopilot Systems and Avionics
  • Introduction to Guidance, Navigation, and Control (GNC) in Spacecraft
  • Aircraft Structural Components and Load Paths
  • Stress, Strain, and Failure Modes in Aerospace Materials
  • Composite Materials and Advanced Alloys
  • Fatigue, Creep, and Corrosion in Aerospace Environments
  • Structural Testing Methods and Finite Element Analysis (FEA)
  • Equations of Motion for Fixed-Wing Aircraft
  • Stability and Control: Longitudinal, Lateral, and Directional
  • Performance Metrics: Climb, Cruise, Descent, and Maneuvering
  • Aircraft Loading and Center of Gravity (CG) Calculation
  • Governing Equations: Navier-Stokes and Euler Equations
  • Discretization Techniques: Finite Volume and Finite Difference
  • Mesh Generation and Boundary Conditions
  • Applications in Aerodynamic Design and Analysis Using Tools like ANSYS Fluent

Semester 3: Specialization and Advanced Topics

  • High-Speed Aerodynamics and Compressible Flow
  • Shock Waves, Expansion Waves, and Prandtl-Meyer Flow
  • Supersonic and Hypersonic Aerodynamics
  • Drag Reduction Techniques and Wing Optimization
  • Wind Tunnel Testing and Data Analysis
  • Orbital Mechanics and Satellite Dynamics
  • Spacecraft Design and Subsystems
  • Space Mission Planning and Payload Design
  • Attitude Determination and Control Systems
  • Spacecraft Thermal Control and Power Systems
  • Design and Application of Composite Structures
  • Stress Analysis of Thin-Walled Aerospace Structures
  • Structural Optimization Techniques
  • Smart Materials and Adaptive Structures
  • Non-Destructive Testing and Evaluation (NDT/NDE)
  • Fundamentals of Avionics in Aerospace Applications
  • Inertial Navigation Systems and Global Positioning System (GPS)
  • Radar and Communication Systems
  • Sensor Integration and Data Fusion
  • Fault Detection and Health Monitoring in Avionics
  • System Modeling Techniques in MATLAB and Simulink
  • Flight Simulation and Hardware-in-the-Loop (HIL) Testing
  • Control System Design for Aerospace Applications
  • Simulating Flight Dynamics and Control Systems

Semester 4: Application, Research, and Capstone Projects

  • Hypersonic Flow and Thermodynamic Considerations
  • Design and Challenges of Hypersonic Vehicles
  • UAV Flight Dynamics, Control, and Applications
  • Aerodynamic Design and Stability of Unmanned Aerial Vehicles
  • Design Process for Launch Vehicles and Satellites
  • Payload Integration and Configuration
  • Spacecraft Environmental Testing and Qualification
  • Mission Analysis for Earth and Interplanetary Missions
  • Manufacturing Techniques in Aerospace: Additive, Composites, and Precision Machining
  • Quality Control and Inspection in Aerospace Manufacturing
  • Safety and Risk Analysis in Aircraft Design
  • Regulatory Standards in Aerospace (FAA, EASA)
  • Team-based Project on Designing an Aircraft or Spacecraft
  • Integration of Aerodynamics, Structures, Propulsion, and Controls
  • Performance Analysis and Design Optimization
  • Project Documentation and Presentation
  • Research Methodologies and Techniques
  • Intellectual Property and Patents in Aerospace Innovation
  • Writing and Presenting Research Papers
  • Exploring Emerging Trends in Aerospace Technology

Semester 5: Industry Project and Dissertation

  • Working on Real-World Aerospace Challenges with an Industry Partner
  • Application of Theoretical and Practical Knowledge in Professional Settings
  • Exposure to Advanced Aerospace Technologies and Systems
  • Collaborative Project Documentation and Reporting
  • Refinement and Completion of Capstone Project
  • Prototype Testing, Validation, and Optimization
  • Presentation of Final Project to a Panel of Industry and Academic Experts
  • Independent Research on an Aerospace Engineering Topic
  • In-depth Analysis and Solution to a Complex Engineering Problem
  • Writing and Defending a Dissertation with Findings, Conclusions, and Future Work

Companies where our students got jobs

Whether you’re looking to start a new career, or change your current one, Skill-Lync helps you get ready to get placed in Top Companies.

Advanced Career Support

1:1 CAREER SESSIONS

Engage one-on-one with industry experts for valuable insights and guidance.

INTERVIEW PREPARATION

Gain insights into Recruiter Expectations.

RESUME & LINKEDIN PROFILE REVIEW

Showcase your Strengths Impressively

E-PORTFOLIO

Create a Professional Portfolio Demonstrating Skills and Expertise

 

Program Fees

Connect with our career counselors to explore flexible payment options that suit your financial needs.

INR 12,40,000

Inclusive of all charges


Achieve Job Readiness with Our Extensive Industry-Aligned Program for Fresh Graduates & Early Career Professionals

Low cost EMIs and full payment discount available

EMIs starting

INR 20,666/month

Instructors profiles

Our courses are meticulously crafted by a team of esteemed academicians and seasoned industry professionals.

9 industry experts

Our instructors bring a wealth of industry expertise combined with a genuine passion for teaching and mentoring aspiring professionals like you.

8 - 25 years in the experience range

Instructors with 8 – 25 years extensive industry experience.

Areas of expertise
  • Aerodynamics and Fluid Dynamics
  • Propulsion Systems
  • Structural Analysis and Materials Science
  • Flight Mechanics and Stability Control
  • Avionics and Electronics
  • Space Systems Engineering
  • Aerospace Manufacturing and Quality Assurance
  • Systems Integration and Simulation
  • Hypersonics and High-Speed Aerodynamics
  • Environmental and Regulatory Compliance
  • Emerging Aerospace Technologies

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