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Astronomy Aerospace

Astronomy is related to the movement of the planets and the solar system and everything in space. It covers all celestial bodies, their direction, the base of matter and a lot more. Aerospace, on the other hand is a form of engineering which specializes in manufacturing of vehicles, aircrafts, space shuttles and more.


In our video lectures, we will be covering a wide array of different topics from beginning. In order to excel in astronomy and aerospace, it is important to have the right base and the foundation can be set by getting a basic overlay of the principle of aerodynamics. Our tutorials will cover the different topics related to cosmology along with space flight thermodynamics. When going through these videos, you will understand the correlation between the two sciences and how you will be able to make the best out of it.

By going through these tutorials, you will learn even the complex acoustic instabilities which can occur during aerospace propulsion along with turbo machinery aerodynamics. Those who have a keen interest in the field will also be able to acquaint themselves with the complex dynamics related to flight stability. These tutorials have been carefully organized by segregating them into separate lectures and you can go through them progressively to improve your knowledge base in this area.

Showing 20 of 33 courses
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UC Berkeley Fall 2014
A tour of the mysteries and inner workings of our solar system. What are planets made of? Why do they orbit the sun the way they do? How do planets form, and what are they mad
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This course will cover our modern scientific understanding of origins, from the Big Bang to the formation of planets like Earth, evolution by natural selection, the genetic ba
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Introduction - Representation:Need to represent functions on computers - Introduce box functions - Intro to hat functions - Demo representation of sinx using hat functions: Al
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Introduction to various air breathing and non-air breathing engines - Conservation equations & derivation of the thrust equation for air breathing and non-air breathing engine
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Introduction and Motivation for Advanced Control Design - Review of Classical Control - Classical Control Overview - Flight Dynamics - Basic Principles of Atmospheric Flight M
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Basic principles of Propulsion - Historical background, Classification of propulsive devices, Applications of aircraft and rocket engines - Review of basic thermodynamics, In
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Introduction to Instability and Transition - Computing Transitional and Turbulent Flows - Fluid Dynamical Equations - Some Equilibrium Solutions of the Basic Equation - Bound
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What is Flying - Mythology - History of Aviation - Ballons - Leonardo da Vinci - First Powered Flight - Rockets - Features - Applications - History of Rockets - William Congre
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Contents: Basic concepts of compressible flow - continuity, energy and momentum equations; One-dimensional inviscid flow; Stagnation quantities; Isentropic conditions; Speed
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Aircraft and Aerodynamic Forces and Moments - Fluids and Forces in Fluids - Forces in Fluids-Kinematics of fluid motion - Kinematics of fluid motion - Velocity with specified
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concenpts : Compressibility - Thermodynamic concepts - Conservation equations - Communicatio in gases - Stagnation state - One Dimensional Flow : Pressure waves in gases - Com
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Contents: Introduction to acoustics and combustion driven oscillations - Derivation of the wave equation - Traveling wave solutions - Acoustic energy corollary - Impedance &
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Introduction and Review of Basic Concepts : Introduction, Motivation and Overview - Overview of SS Approach and Matrix Theory - Review of Numerical Methods - Static Optimizati
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Contents: Introduction - Historical Development of Helicopters - Helicopter Configuration - Control Requirements - Types of Rotor Systems - Basic Power Requirements. Intro
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Contents: Introduction to Space Flight Mechanics - Particle Dynamics - Conic Section. Central Force Motion : Two Body Problem Equation of Relative Motion,Integrals of the Tw
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Introduction to Turbomachineries:Axial flow compressors and Fans : Introduction - A simple two dimensional analytical model - 2-D Losses in axial flow compressor stage - Prof
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Contents: Airplane nomenclature and aerodynamics, Review of basics of rigid body dynamics, Concepts of static and dynamic stability, Need for stability in an airplane, Purpos
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Introduction - Aero elastic Problems - Deformation of Structures and Influence Coefficients - Energy Method - Classification and Solution of Aero elastic Problems - Static Aer
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Contents: Introduction & Development of Jet Aircraft Propulsion - How the Aircraft Jet Engines make Thrust - Jet Engine Basic Performance Parameters - Turbojet, Reheat Turboj
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Contents: Introduction to Propulsion : The making of thrust to fly - science and history of propulsion; How the jet engines make thrust : conceptual basis; Jet engine : Turb
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