Spacecraft Propulsion And Rendezvous
Last updated 7/2021
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 3.86 GB | Duration: 11h 11m
Space Propulsion Technologies , how differs from Launch Rocket Propulsion, Orbital Maneuvers and ARTEMIS Program
What you'll learn
At the end of the course the learners can understand the various propulsion technologies that are used in spacecrafts and concepts of advanced propulsion systems.
The student can estimate the total amount of propellant to be loaded in the spacecraft to meet its orbital maneuvers during mission life time.
Also, student can appreciate any newly developed space propulsion technology systems for spacecraft propulsion, announced by space industries / organizations, by analyzing its performance parameters or comparing with the existing units
Requirements
High school level mathematics and physics
Description
The course helps to grasp the principles of spacecraft propulsion technologies in different space regions, orbital mechanics to estimate the velocity change requirement for phase change, plane change and station keeping. It covers how to dock or berth to another spacecraft in space and interplanetary trajectories.It gives emphasis on understanding the concepts in a systematic manner and its application with worked examples of real time data. It helps to understand and analyze the specifications of spacecraft propulsion system like Dragon, Orion and Soyuz. Also, impart knowledge to estimate required propellant to meet a particular space mission.The course in detail covers major concepts spacecraft propulsion technologies. The working and characteristics of chemical propulsion systems, cold gas, mono and bi-propellant are explained and space missions used these systems are described. The principles and working of electrical propulsion systems like electrothermal, electrostatic, electromagnetic are described. The course explains the fluid flow and energy conversion pattern in electrical propulsion units. The concepts of advanced space propulsion systems like solar and nuclear are discussed. The interplanetary trajectories, departure, transfer and arrival are explained in detail. The advantage of planet's gravity in adding the required velocity change in interplanetary travel of spacecraft is explained. It discusses NASA's ARTEMIS program and major problems of human Mar's mission.
Overview
Section 1: Spacecraft System
Lecture 1 Introduction
Lecture 2 Spacecraft and subsystems
Lecture 3 Space Regions and Preferred Propulsion Technologies
Lecture 4 Characteristics of primary and Auxiliary propulsion
Lecture 5 Basic Propulsion relations
Lecture 6 Attitude Maneuvers
Lecture 7 Torque on spacecraft
Section 2: Orbital Mechanics
Lecture 8 Two Body Problem
Lecture 9 Orbital Energy
Lecture 10 Keplerian Motion
Lecture 11 Circular Orbits
Lecture 12 Elliptical Orbits
Lecture 13 Example
Lecture 14 Parabolic and Hyperbolic Orbits
Lecture 15 Coordinate Systems and Orbital Elements
Section 3: Orbital Maneuvers
Lecture 16 Hohmann Transfer
Lecture 17 Example
Lecture 18 Phasing Maneuvers and Example
Lecture 19 Plane Change Maneuvers and combined Maneuvers
Lecture 20 Effect of Launch Site and Orbit Perturbations
Lecture 21 Geosynchronous Orbit
Section 4: Interplanetary Trajectories
Lecture 22 Patched Conic Approximation
Lecture 23 Heliocentric Velocities and Example
Lecture 24 Planetary Departure
Lecture 25 Planetary Arrival
Lecture 26 Lunar Orbit
Lecture 27 Synodic period
Lecture 28 Gravity-Assist Maneuver
Section 5: Rendezvous and docking or berthing (RVD/B)
Lecture 29 RVD/B Basics
Lecture 30 Coordinate Frames During Rendezvous
Lecture 31 RVD Phases
Lecture 32 Phasing and Homing
Lecture 33 Closing and Final Approach
Lecture 34 Visiting Vehicles at ISS
Section 6: Spacecraft Chemical Propulsion Systems
Lecture 35 Cold Gas System
Lecture 36 Monopropellant System
Lecture 37 Blowdown System
Lecture 38 Bipropellant System
Lecture 39 Typical Missions with Bipropellant System & Solid Rocket Motor (SRM)
Section 7: Spacecraft Electrical Propulsion Systems
Lecture 40 Electrical Propulsion
Lecture 41 Electrothermal Thrusters
Lecture 42 Electrostatic Force and Electric Field
Lecture 43 Electrostatic Thrusters
Lecture 44 Basic Processes in Ion Thrusters
Lecture 45 Hall Effect Thrusters
Section 8: Brief Note on Advanced Spacecraft Propulsion Systems
Lecture 46 Advanced Spacecraft Propulsion Systems
Lecture 47 Multimode Space Propulsion
Lecture 48 Power Requirement of Electrical Thrusters
Lecture 49 ISS Visiting Vehicles
Lecture 50 ARTEMIS Program
Enthusiastic learners of Space, spacecrafts and Rocket Science; Engineering and Science students interested in Space Technology.
Screenshots
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