__Learning Hub __> Aerospace Engineering

## Advanced Aerospace Concepts Certification Course

Start learning about Aerodynamics, Aircraft Propulsion, Flight Mechanics and Control, Aircraft Structures along with Space Mechanics. Get Certified with YourEngineer and Earn a Badge and Certificate by passing Assessment.

** 15,360** already enrolled

## What you will get:

- 100+ Hours of Video Content and Notes for Reference
- Weekly 2 LIVE Sessions for clear understanding

- 100% Internship and Job Assistance with Interview Preparation
- Feature on YourEngineer's LinkedIn and Social Media Blogs

## How Course Works:

- Complete Video Lectures and pass Quizzes
- Join Weekly LIVE Sessions and commit to it

- Apply for Assessment after 24 weeks of Enrollment
- Pass Assessment and Certificate will be awarded.

- Shareable Certificate
- Advanced
- 24 Weeks to complete
- Aerospace Engineering

###
Program Fees: ₹30000/- ~~₹50000/-~~

FLAT 40% OFF

(Limited Seats)

### Basics to Advanced

Building Aircraft Designs, Simulations and UAVs will never be possible without knowledge of Aerospace Engineering. In this course, we are covering Aerospace Concepts and Applications to understand airflow behavior, engine combustion, structural dynamics etc.

Prior Knowledge of Mathematics will be helpful.

### Certification

After completion of the course and all the quizzes, you will be awarded with a professional certificate called "Certificate of Excellence"; also get access to our job and internship section where you can find suitable jobs or internships.

## Watch this Exclusive Workshop

## Topics covered

## AERODYNAMICS

- Basics of Aerodynamics
- Aerodynamic Forces and Moments
- Dimensional Analysis and Flow Similarity
- Continuity Equation, Flow Lines
- Momentum Equation
- Basics of Thermodynamics and Energy Equation
- Substantial Derivative, Vorticity, Circulation, Kelvin Circulation Theorem
- Biot Savart law, Helmholtz Theorem, Stream Function, Complex Potential Function
- Uniform Flow, Source/Sink Flow, Vortex Flow, Half Rankine Oval
- Full Rankine Oval, Source Sink Doublet, Vortex Doublet, Summary
- Stationary and Rotating Cylinder, Lift and Drag on Cylinder
- External Viscous Flow, Boundary Layer on a Flat Plate, Von Karman Integral
- Internal Viscous Flow, General 2D Flow, Couette Flow

- Poiseuille's Flow, Free and Forced Vortex Concepts
- Airfoil and its Nomenclature
- Thin Airfoil Theory
- Prandtl's Finite Wing Theory, Induced Drag
- Gas Dynamics, Compressible Flow & Characteristic Mach Number
- Introduction to Shock Waves, Normal Shock Wave
- Oblique Shock Waves and Expansion Waves
- Nozzles and Diffusers Part I
- Nozzles and Diffusers Part II
- Linear Theory for Compressible Flow
- Prandtl Glauert Correction, Critical Mach Number
- Drag Divergence Mach Number, Fanno Flow, Rayleigh Flow, Wind Tunnel Testing

## AIRCRAFT PROPULSION

- Aircraft Propulsion: Introduction, Thrust, Efficiencies
- Specific Impulse, Range, Gas Turbine Basics
- Ideal Cycle Jet Engine Analysis
- Turbojet, Turbofan, Ramjet Engine Analysis
- Ramjet Analysis, Working and Characteristics
- Turbo Machinery Part 1

- Turbo Machinery Part 2
- Turbo Machinery Part 3
- Turbo Machinery Part 4
- Combustion Chamber and its characteristics
- Rocket Propulsion Part 1
- Rocket Propulsion Part 2

## AIRCRAFT STRUCTURES

- Basics of Structures, Introduction to Elasticity
- Equilibrium Equations, 3D Stress Strain Relations
- Plane Stress, Plane Strain, Compatibility Equations
- Airy Stress Equation, Problems on GATE
- Stresses in Inclined Plane, Principal Stresses
- Bending, Types of Support, Beam & Loads, Moment of Inertia
- Shear Force and Bending Moment Diagram Part 1
- Shear Force and Bending Moment Diagram Part 2
- Beam Theory, Moment of Inertia
- Beam Theory: Slope and Deflection

- Horizontal Shear, Strain Energy, Castigliano Theorem
- Buckling in Columns
- Torsion for Any Cross Section, Torsion in Thin Sheets
- Torsion in Thin Closed Arbitrary Shells, Multicell Sections
- Theories of Failure, Factor of Safely, Ultimate Loads
- Aircraft Structures and Materials, Loads on Aircraft
- Vibration Part 1
- Vibration Part 2
- Vibration Part 3
- Vibration Part 4

## FLIGHT MECHANICS

- Flight Mechanics Introduction and Standard Atmosphere
- Some Basic Aspects and Equation of Motion
- Thrust Required/Available, Power Required/Available, Altitude Effects
- Climb and Descent Rate, Range and Endurance of Propeller Aircraft
- Range and Endurance for Jet Engines, Takeoff and Landing Performance
- Turning Flight, V-n Diagram, Accelerated Rate of Climb
- Stability Basics, Absolute Angle of Attack, Moments on Aircraft
- Longitudinal Static Stability, Contribution of Wing and Tail to Mcg

- Total Pitching Moment about Centre of Gravity, Neutral Point, Static Margin
- Static Longitudinal Control: Elevator
- Stick Free Static Longitudinal Stability, Hinge Moment
- Aircraft Performance Practice Questions
- Aircraft Stability Practice Questions
- Lateral and Directional Stability
- Dynamic Stability

## SPACE MECHANICS

- Gravitation Concepts and Principles
- Kepler's law, Escape Velocity
- Orbital Mechanics
- Hohmann In-orbit transfer

## ENGINEERING MATHEMATICS

- Functions, Limit, Continuity, Differentiability and Mean Value Theorems
- Differentiation, Application of Derivatives, Partial Differentiation
- Definite and Indefinite Integration
- Vector Differentiation - Gradient, Divergence and Curl
- Vector Integration - Line, Surface and Volume Integral, Green's Theorem, Stokes Theorem, Gauss Divergence Theorem
- Ordinary Differential Equation - Variable Separable, Homogeneous Equation, Linear DE, Exact DE
- Ordinary Differential Equation - Complimentary Function (CF) and Particular Integral (PI)
- Partial Differential Equations, Fourier Series
- Laplace Transforms, Inverse Laplace Transforms
- Linear Algebra - Determinant of a Matrix

- Linear Algebra - Inverse of Matrix, Rank of a Matrix
- Linear Algebra - Solution of Linear Equations
- Linear Algebra - Eigen Values, Eigen Vectors, Cayley Hamilton Theorem
- Numerical Methods: Solution to Algebraic and Transcendental Equations
- Numerical Methods: Solution to System of Linear Equations and Solution to Integration
- Numerical Methods: Solution to Differential Equations
- Statistics
- Probability
- Complex Analysis

## Course Outcome

By the end of this certificate course you will be able to

- Understand all basic and advanced aerospace concepts
- Apply for Internships and Jobs in Aviation Industry
- Apply for research centers with a valid problem statement.
- Crack any interview based on Aerospace and Aviation

Still in Doubt? Talk to us.