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RocketPy 1.10.0 documentation - Home
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  • User Guide
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  • Development
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  • Flight Examples
  • GitHub
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Section Navigation

Getting Started

  • Installation and Requirements
  • First Simulation

Main Classes Usage

  • Positions and Coordinate Systems
  • Motors
  • Rocket
    • Rocket Class Usage
    • Rocket Class Axes Definitions
    • Generic Surfaces and Custom Aerodynamic Coefficients
  • Environment

Special Case Simulations

  • Compare Flights Class
  • Deployable Payload
  • Air Brakes Example
  • Sensor Class usage
  • MATLAB® Tutorial

Monte Carlo Simulations

  • Stochastic Classes
  • Custom Sampler
  • Monte Carlo class usage
  • Monte Carlo Simulations
  • Parachute Drop from Helicopter
  • Sensitivity Analysis
  • Multivariate Rejection Sampler

Further Analysis

  • Function
  • Utilities
  • RocketPy’s User Guide
  • Rocket Usage

Rocket Usage#

Rocket Class Usage

  • Rocket Class Usage
    • 1. Defining the Rocket
    • 2. Adding a Motor
    • 3. Adding Aerodynamic Surfaces
    • 4. Adding Parachutes
    • 5. Setting Rail Guides
    • 6. See Results
    • 7. Inertia Tensors

Rocket Class Axes Definitions

  • Rocket Class Axes Definitions
    • 1. User Defined Coordinate System
      • Angular Position Inputs
    • 2. Body Axes Coordinate System
    • 3. Relation to Flight Coordinates
      • Rocket’s initial orientation

Generic Surfaces and Custom Aerodynamic Coefficients

  • Generic Surfaces and Custom Aerodynamic Coefficients
    • Aerodynamic Frame
      • Aerodynamic angles
    • Generic Surface Class
    • Linear Generic Surface Class

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Tanks Usage

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Rocket Class Usage

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