Difference between revisions of "Forest UCM Ch3 Rockets"
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:<math>-udm = mdv </math> | :<math>-udm = mdv </math> | ||
+ | ;solving for the velocity | ||
+ | |||
+ | : <math>\int_{v_0}^v = \int_{m_0}^m -u \frac{dm}{m}</math> | ||
[[Forest_UCM_MnAM#Rockets]] | [[Forest_UCM_MnAM#Rockets]] |
Revision as of 13:31, 13 September 2014
Consider a rocket of mass
moving at a speed ejecting rocket fuel for propulsion.
File:Forest UCM Ch3 Rockets Fig.xfig.txt
mass of Fuel + Rocket
mass of Fuel ejected over time interval ( = mass lost by rocket < 0)
velocity of Fuel relative to the Rocket
velocity of rocket relative to the ground before ejecting fuel of mass
velocity of the rocket relative to the ground after ejecting fuel
Velocity of the fuel with respect to the ground
- Conservation of Momentum
The velocity of the fuel with respect to the ground
may be written as the vector sum of the rocket's velocity with respect to the ground and the velocity of the fuel with respect to the rocket :Galilean transormationassuming 1-D motion and using the velocity variables defined above
substituting
- solving for the velocity