Ementorhub

What you'll learn

Derive the rotational equations of motion and predict and determine torque-free motion equilibria and associated stabilities

Develop equations of motion for a rigid body with multiple spinning components and derive and apply the gravity gradient torque

Apply the static stability conditions of a dual-spinner configuration and predict changes as momentum exchange devices are introduced

Derive equations of motion for systems in which various momentum exchange devices are present

Skills you'll gain

Engineering

Engineering Analysis

Mathematical Modeling

Linear Algebra

Physics

Simulation and Simulation Software

Mechanics

Engineering Calculations

Differential Equations

Applied Mathematics

Torque (Physics)

There are 4 modules in this course

After this course, you will be able to... *Derive from basic angular momentum formulation the rotational equations of motion and predict and determine torque-free motion equilibria and associated stabilities * Develop equations of motion for a rigid body with multiple spinning components and derive and apply the gravity gradient torque * Apply the static stability conditions of a dual-spinner configuration and predict changes as momentum exchange devices are introduced * Derive equations of motion for systems in which various momentum exchange devices are present Please note: this is an advanced course, best suited for working engineers or students with college-level knowledge in mathematics and physics. The material covered is taking from the book "Analytical Mechanics of Space Systems" available at https://arc.aiaa.org/doi/book/10.2514/4.105210.

Torque Free Motion

Gravity Gradients

Equations of Motion with Momentum Exchange Devices