A marble block of mass 2 kg lying on ice when given a velocity of 6 m `s^(-1)` is stopped by friction in 10 s. Then the coefficient of friction is

A marble block of mass 2 kg lying on ice when given a velocity of 6m//s is stopped by friction in 10s. Then the coefficient of friction is

A marble block of mass 2 kg lying on ice when given a velocity of 6m//s is stopped by friction in 10s. Then the coefficient of friction is

A block of mass 2kg lying on ice when given a velocity of 6ms^(-1) is stopped by friction in 5s. The coefficient of friction between the block and ice is (g=10 ms^(-2) )

A ball rolled on ice with a velocity of 14 ms^(-1) comes to rest after travelling 20 m. Find the coefficient of friction. (Given g=9.8m//s^(2) )

A block slides on ice with a velocity of 5m//s comes to rest after moving through a distance of 13.5m . Find the coefficient of friction ?

A ball rolled on ice with a velocity of 14 ms^(-1) comes to rest after travelling 40 m . Find the coefficient of friction . (Given g = 9.8 m//s^(2)

A man of mass 60 kg sitting on ice pushes a block of mass of 12kg on ice horizontally with a speed of 5 ms^(-1) . The coefficient of friction between the man and ice and between block and ice is 0.2. If g =10 ms^(-2) , the distances between man and the block, when they come to rest is

A body of mass 10 kg moves on rough horizontal surface with initial velocity 10m/s and travels 500m before coming to rest. The coefficient of friction is

A block A of mass 2 kg rests on a horizontal surface. Another block B of mass 1 kg moving at a speed of m/s when at a distance of 16 cm from A. collides elastically with A. The coefficeint of friction between the horizontal surface and earth of the blocks is 0.2. Then (g = 10 m//s^(2))

A lift moving with a uniform velocity v in which a block of mass m is lying .The friction force offered by the when coefficient of friction is mu = 0.5 will be