A tennis ball on Mars, where the acceleration due to gravity is 0.379 of a g...
A tennis ball on Mars, where the acceleration due to gravity is
0.379 of a g and air resistance is negligible, is hit directly
upward and returns to the same level 9.20 {\rm s} later.
How high above its original point did the ball go?
and
How fast was it moving just after being hit?
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A tennis ball on Mars, where the acceleration due to gravity is 0.379 of a g...
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2.39 A tennis ball on Mars, where the acceleration due to ma gravity is 0.379g and air resistance is negligible, is hit directly up- th ward and returns to the same level 8.5 s later. (a) How high above v its original point did the ball go? (b) How fast was it moving justi after it was hit? (c) Sketch graphs of the ball's vertical position, vertical velocity, and vertical acceleration as functions of time while it's in the Martian...
is ball on Moon, where the acceleration due to gravity is 1/6(g -9.8) and air resistance is negligible, is hit directly upward and returns to the same level 85 s later, (a) How high above its origjinal point did the ball go? (b) How fast it moving just a after it was hit? 7. Two train cars are on a straight, horizontal track. The car A starts at rest and is put in motion with a constant acceleration of 2.00...
A tennis ball is hit straight up at 24.0 m/s from the edge of a sheer cliff. Sometime later, the ball passes the original height from which it was hit. Use the value of g-10.0m/s 1. How fast is the ball moving at that time? 2. If the cliff is 32.0 m high, how long will it take the ball to reach the ground level? 3. What total distance did the ball travel? Set-up: Draw diagram. List the values provided...
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