Two people are on a train that is moving at 10 m/s north. They are walking 1 m/s south relative to the train. Relative to the ground, their motion is 9 m/s north. Why are we able to use these motions to describe the motion relative to the ground? (1 point) Responses The motion of everything in the Universe besides light can be described in this way. The motion of everything in the Universe besides light can be described in this way. If one object is moving much slower than the speed of light, its speed can be added to that of another object. If one object is moving much slower than the speed of light, its speed can be added to that of another object. As long as the frame of reference is stationary, all motion can be described in this way. As long as the frame of reference is stationary, all motion can be described in this way. The people are moving much slower than the speed of light so the ground acts as a frame of reference.
The correct response is: If one object is moving much slower than the speed of light, its speed can be added to that of another object. The people are moving much slower than the speed of light so the ground acts as a frame of reference.
This is because the motion of objects moving at speeds much slower than the speed of light can be described by adding their velocities using relative motion. In this case, the motion of the train (10 m/s north) and the motion of the people (1 m/s south) can be added to determine their motion relative to the ground (9 m/s north).