• Post category:Udemy (July 2022)
  • Reading time:9 mins read


Have the knowledge of a rocket scientist and learn how to deal with complex equations critical to rocket propulsion!

What you will learn

Discover Rockets and Their Components

Derive and Understand The Rocket Thrust Equation

Full Understanding of Specific Impulse

Derive and Understand Tsiolkovsky’s Rocket Equation

Discover The Aerodynamic Forces on a Rocket

Thorough Thermodynamic Analysis

Understand The Meaning of An Ideal Rocket

Derive, Develop and Understand Complex Rocket Design Equations in A Simple Manner

Design a Rocket Engine For a Specific Orbit/Altitude

Derive and Understand Performance Key Parameters

Full Understanding Of How Liquid-Propellant Rocket Engines Work And Their Components

Discover The Different Engine Cooling Techniques

Heat Transfer Analysis

Full Understanding Of How Solid-Propellant Rocket Engines Work And Their Components

Discover The Different Electric Propulsion Systems, The Difference Between Them And How They Work

Description

HAVE THE KNOWLEDGE OF A ROCKET SCIENTIST!

First of all, if you’re looking for a course that contains basic knowledge about rocket science, just skip ahead because this course is NOT for you! This course is more mathematics oriented. Think of it as rocket propulsion university lectures compressed into 4.5 hours, that’s why high school/basic mathematics and physics are recommended.

You can always check my AP/College Physics course, your call!

           PLEASE DO TAKE A LOOK AT THE VIDEOS PROVIDED FOR FREE BEFORE ENROLLING IN THIS COURSE!

I assure you, this is the only online course that focuses this much on rocket propulsion! Go ahead, do your research!

NO YOU WILL NOT BECOME A ROCKET SCIENTIST! You will however, understand the concepts behind rocket science and engineering and you will never say “IT’S NOT ROCKET SCIENCE!” again, because as it turns out, it’s not that hard.

This course contains 4.5 hours of content containing clear course videos and examples to help you better understand the concepts of rocket propulsion, and you will also find quiz questions at the end of each section so you can test your knowledge!

This course contains crystal clear explanation of rocket propulsion, how to deal with complex equations which are critical to rocket design and how to use these equations to design a rocket engine for a specific mission.


Subscribe to latest coupons on our Telegram channel.

This course is made using Microsoft PowerPoint which I Provided in the form of a PDF so you can keep up while watching the course videos. You will find it included as a resource in the first course video, so you can easily download it.

YOU SHOULD KNOW THAT THIS COURSE DOES NOT CONTAIN ORBITAL MECHANICS (Kepler’s laws and all that)

         PLEASE DO TAKE A LOOK AT THE COURSE CONTENT BEFORE ENROLLING IN THIS COURSE!

“We choose to go to the moon not because they are easy but because they are hard”. JFK

What students say about this course:

“I honestly never thought it would be this detailed! The way the instructor presents such complex concepts, so simple, so elegant. The examples and the quiz questions helped a lot!

Whether you’re a total beginner or a Ph.D. student, this course is PERFECT for you!

Thank you so much, really enjoyed it!

English
language

Content

Rocket Science and Engineering: Introduction

Course Overview

Background

What are Rockets and Why Do We Use Them?
Rocket Components
Different Types of Rockets

Fundamentals and Performance

Deriving The Rocket Thrust Equation
Specific Impulse
Weight Flow Rate
Tsiolkovsky’s Rocket Equation
Rocket Staging
Fundamentals and Performance Quiz

Flight Performance

Aerodynamic Forces
Attitude Control Systems
Flight Performance Quiz

Nozzle Theory and Thermodynamic Analysis

Introduction: The Ideal Rocket
Mass Flow Rate in Isentropic Flow
Deriving The Flow Equation
Isentropic Relations
The Exhaust Velocity
The Exhaust Velocity: Example
Flow Density
Throat Area and Expansion Ratio
Stagnation and Combustion Chamber Conditions
Stagnation and Combustion Chamber Conditions: Example
The Ideal Nozzle
The Ideal Nozzle: Example
The Diverging Nozzle: The Bell Shaped Nozzle
Combustion Chamber and Converging Nozzle Design
Thrust Coefficient and Characteristic Velocity
Thrust Coefficient and Characteristic Velocity: Example
Nozzle Theory and Thermodynamic Analysis Quiz

Liquid-Propellant Rocket Engines

Liquid-Propellant Fuel Engine: Fundamentals
Turbopumps and Cavitation
Pogo Instability
Heat Transfer Methods: Basics
Engine Cooling and Heat Transfer
Igniters
Propellant Choice
Liquid-Propellant Fuel Engine Quiz

Solid-Propellant Rocket Engines

Solid-Propellant Rocket Engines: Fundamentals
Solid Propellants
Solid-Propellant Rocket Engines Quiz

Electric Propulsion

Electric Propulsion: Introduction
Electrothermal Thrusters
Electrostatic Thrusters
Electrostatic Thrusters: Example
Electromagnetic Thrusters
Electromagnetic Thrusters: Example
Electric Propulsion Quiz
BOOKS