Pretend that the starship in the preceding problem is somehow traveling at c with respect to Earth and it fires a drone forward at speed c with respect to itself. Use the equation for the relativistic addition of velocities to show that the speed of the drone with respect to the earth is still c. The Earth is stationary in the previous problem. What would the speed of the drone be to an observer on earth be if the earth was moving at 0.1c away from the drone relative to a stationary observer in space? Type your answer in terms of c. (e.g. 0.65c, 0.8c, etc.
Pretend that the starship in the preceding problem is somehow traveling at c with respect to Earth and it fires a drone forward at speed c with respect to itself. Use the equation for the relativistic addition of velocities to show that the speed of the drone with respect to the earth is still c. The Earth is stationary in the previous problem. What would the speed of the drone be to an observer on earth be if the earth was moving at 0.1c away from the drone relative to a stationary observer in space? Type your answer in terms of c. (e.g. 0.65c, 0.8c, etc.
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Transcribed Image Text:Pretend that the starship in the
preceding problem is somehow
traveling at c with respect to Earth
and it fires a drone forward at speed
c with respect to itself. Use the
equation for the relativistic addition of
velocities to show that the speed of
the drone with respect to the earth is
still c. The Earth is stationary in the
previous problem. What would the
speed of the drone be to an observer
on earth be if the earth was moving
at 0.1c away from the drone relative
to a stationary observer in space?
Type your answer in terms of c. (e.g.
0.65c, 0.8c, etc.
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