A smooth tunnel is dug along the radius ...

A smooth tunnel is dug along the radius of earth that ends at centre. A ball is released from the surface of earth along tunnel. Coefficient of restitution for collision between soil at centre and ball is `0.5`. Calculate the distance travelled by ball just before second collision at centre. Given mass of the earth is `M` and radius of the earth is `R`.

Similar Questions

Explore conceptually related problems

A smooth tunnel is dug along the radius of earth that ends at centre. A ball is relrased from the surface of earth along tunnel. Caefficient of restitution for collision between soil at centre and ball is 0.5 . Caculate the distance travelled by ball just second collision at center. Given mass of the earth is M and radius of the earth is R .

A smooth tunnel is dug along the radius of the earth that ends at the centre. A ball is released from the surface of earth along the tunnel. If the coefficient of restitution is 0.2 between the surface and ball, then the distance travelled by the ball before second collision at the centre is

If a tunnel is dug along the diameter of the earth and a ball is dropped into the tunnel, it will have

A ball is dropped from a height of 3m . If coefficient of restitution between the surface and ball is 0.5 , then the total distance covered by the before it comes to rest is

A tunnel has been dug through the centre of the earth and a ball is released in it. It will reach the other end of the tunnel after

If a smooth tunnel is dug across a diameter of earth and a particle is released from the surface of earth, the particle oscillate simple harmonically along it Maximum speed of the particle is

If a smooth tunnel is dug across a diameter of earth and a particle is released from the surface of earth, the particle oscillate simple harmonically along it Time period of the particle is not equal to

A tunnel is dug across the diameter of earth. A ball is released from the surface of Earth into the tunnel. The velocity of ball when it is at a distance (R )/(2) from centre of earth is (where R = radius of Earth and M = mass of Earth)

A tunnel is dug along a diameter of the earth. Find the force on a particle of mass m placed in the tunnel at a distance x from the centre.

Similar Questions

Recommended Questions