At t = 42.0 s, the rocket's speed is 496 mph and it has covered a distance of 15772 feet. Method 1 - Assuming constant acceleration starting from rest at t = 0 s, calculate the rocket's acceleration using only the speed and the time, not the distance. _______ m/s 2) Assuming constant acceleration starting from rest at t = 0 s, calculate the rocket's acceleration using only the speed and the distance, not the time. _______ m/s2 3) Assuming constant acceleration starting from rest at t = 0 s, calculate the rocket's acceleration using only the distance and the time, not the speed. _______ m/s2 *show steps please with formulas*
At t = 42.0 s, the rocket's speed is 496 mph and it has covered a distance of 15772 feet. Method 1 - Assuming constant acceleration starting from rest at t = 0 s, calculate the rocket's acceleration using only the speed and the time, not the distance. _______ m/s 2) Assuming constant acceleration starting from rest at t = 0 s, calculate the rocket's acceleration using only the speed and the distance, not the time. _______ m/s2 3) Assuming constant acceleration starting from rest at t = 0 s, calculate the rocket's acceleration using only the distance and the time, not the speed. _______ m/s2 *show steps please with formulas*
Chapter1: The Study Of Motion
Section: Chapter Questions
Problem 7C
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1) At t = 42.0 s, the rocket's speed is 496 mph and it has covered a distance of 15772 feet.
Method 1 - Assuming constant acceleration starting from rest at t = 0 s, calculate the rocket's acceleration using only the speed and the time, not the distance.
_______ m/s
2) Assuming constant acceleration starting from rest at t = 0 s, calculate the rocket's acceleration using only the speed and the distance, not the time.
_______ m/s2
3) Assuming constant acceleration starting from rest at t = 0 s, calculate the rocket's acceleration using only the distance and the time, not the speed.
_______ m/s2
*show steps please with formulas*
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