Physics, 11.04.2020 03:47 hannahkharel2
Suppose a rocket ship accelerates upwards with acceleration equal in magnitude to twice the magnitude of g (we say that the rocket ship accelerations upwards at 2g), but runs out of fuel after 100 seconds, after which point it stops accelerating upward. At this point, the rocket begins accelerating downwards with a magnitude of g. Assume that the gravitational pull of the Earth on the rocket doesn't change with altitude.
a) How high above the surface of the Earth does the rocket travel before it stops accelerating?
b) How fast is the rocket going when it stops accelerating?
c) How high does the rocket get before it begins to fall back to Earth?
d) How long after launch does the rocket strike the Earth again?
e) What is the average velocity of the rocket between when it leaves the Earth and when it strikes the Earth again?
Answers: 3
is the height where the rocket stops accelerating and its fuel is finished and starts decelerating while it still continues to move in the upward direction.
is speed of the rocket going when it stops accelerating.
initial velocity of the rocket at the launch 
height the rocket travels just before its fuel finishes off
acceleration due to gravity
final velocity of the rocket at the top height
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Suppose a rocket ship accelerates upwards with acceleration equal in magnitude to twice the magnitud...
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