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Aeronautical Engineering

Aeronautical Engineering. Rocket Motion. Objectives. Define axes of motion Relate center of pressure and center of gravity Derive equations for predicting velocity and altitude. Three Axes of Motion. Roll, Pitch, and Yaw. Lift Force. Lift Force. Center of Pressure. Center of Pressure.

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Aeronautical Engineering

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  1. Aeronautical Engineering Rocket Motion

  2. Objectives • Define axes of motion • Relate center of pressure and center of gravity • Derive equations for predicting velocity and altitude

  3. Three Axes of Motion

  4. Roll, Pitch, and Yaw

  5. Lift Force

  6. Lift Force

  7. Center of Pressure

  8. Center of Pressure

  9. Altitude Prediction • The peak altitude (apogee) is the altitude at burnout plus the coasting distance • The burnout altitude depends on the thrust, duration, and weight of the rocket • The coasting distance depends on the burnout velocity and the weight of the rocket

  10. Altitude Calculation

  11. Altitude Calculation • The weight of the rocket is changing during flight, as the propellant is being expended! • Use “average weight” in the calculation • Average weight is the weight at liftoff minus half of the propellant weight

  12. Average Mass • Mavg = average mass • mi = liftoff mass • mf = mass at burnout • mr = no-motor mass of rocket • mm = mass of rocket motor • mp = mass of propellant

  13. Weight • Weight is a force • Newton’s second law

  14. Kinematic Equations

  15. Gravity

  16. Thrust

  17. Velocity Calculation • The maximum velocity occurs at burnout

  18. Velocity Calculation • So, another way to write the velocity is • Find the altitude reached with this velocity

  19. Burnout Altitude • Use the average velocity and the time to find the distance

  20. Now, find out how far the rocket coasts

  21. Coast Distance

  22. Coast Distance

  23. Coast Distance

  24. Peak Altitude • The combined distances equal the peak altitude

  25. Review

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