A block of mass 2 m collides,elastically with a masss m kept at rest. Friction exists between the block B ,and surface with coefficient`mu=0.3`, whereas no.friction exists between block A and the surface.

The blocks will again collide after time:

A block of mass 2 m collides,elastically with a masss m kept at rest. Friction exists between the block B ,and surface with coefficient mu=0.3 , whereas no.friction exists between block A and the surface. The velocity of the blocks just after the first collision will be:

A block of mass 2 m collides,elastically with a masss m kept at rest. Friction exists between the block B ,and surface with coefficient mu=0.3 , whereas no.friction exists between block A and the surface. After how much time collision between the blocks will not take place practically:

A block of mass 2 m collides,elastically with a masss m kept at rest. Friction exists between the block B ,and surface with coefficient mu=0.3 , whereas no.friction exists between block A and the surface. Which of the following graphs best represent the distance between the blocks between first and second collision?

A block of mass 2 m collides,elastically with a masss m kept at rest. Friction exists between the block B ,and surface with coefficient mu=0.3 , whereas no.friction exists between block A and the surface. How many collision are possible between the blocks?

A block of mass 2 m collides,elastically with a masss m kept at rest. Friction exists between the block B ,and surface with coefficient mu=0.3 , whereas no.friction exists between block A and the surface. Maximum distance between the blocks during the time interval between first and second collision is:

Calculate angle of friction between wedge and block system is at rest M coefficient of friction between wedge and block.

Calculate angle of friction between wedge and block system is at rest M coefficient of friction between wedge and block.