An experiment is performed in deep space with two uniform spheres, one with mass 50.0 kg and the other with mass 100.0 kg. They have equal radii, r = 0.20 m. The spheres are released from rest with their centers 40.0 m apart. They accelerate toward each other because of their mutual gravitational attraction. You can ignore all gravitational forces other than that between the two spheres. (a) Explain why linear momentum is conserved. (b) When their centers are 20.0 m apart, find (i) the speed of each sphere and (ii) the magnitude of the relative velocity with which one sphere is approaching the other. (c) How far from the initial position of the center of the 50.0 kg sphere do the surfaces of the two spheres collide?
An experiment is performed in deep space with two uniform
spheres, one with mass 50.0 kg and the other with mass 100.0 kg.
They have equal radii, r = 0.20 m. The spheres are released from rest
with their centers 40.0 m apart. They accelerate toward each other because
of their mutual gravitational attraction. You can ignore all gravitational
forces other than that between the two spheres. (a) Explain why
linear momentum is conserved. (b) When their centers are 20.0 m apart,
find (i) the speed of each sphere and (ii) the magnitude of the relative
velocity with which one sphere is approaching the other. (c) How far
from the initial position of the center of the 50.0 kg sphere do the surfaces
of the two spheres collide?
Trending now
This is a popular solution!
Step by step
Solved in 2 steps
