A piece of stone came to rest after covering a distance of 20 m over an surface. If the initial velocity of the stone was 1 `"m.s"^(-1)`, what was the coefficient of friction between the stone and ice?

Standing on an icy surface a man of mass 60 kg throws a stone of mass 3 kg horizontally at a velocity of 8 "m.s"^(-1) . How far does he slide back if the coefficient of sliding friction between the man and the icy surface is 0.02?

A block of ice having mass 6 kg is pulled 50 m horizontally over a surface of ice. The temperature of both the ice is 0^(@)C , coefficient of friction between the surfaces of ice is 0.03 and latent heat of fusion of ice is 80 cal cdot g^(-1) . Calculate the amount of ice that melts.

A body moving on ground with a velocity of 14 m//s comes to rest due to friction after moving ove a distance of 50 m. Detennine the co-efficient of friction between the body and the ground.

A piece of stone is dropped from the top of a tower 90 m tall and at the same time another piece of stone is thrown upwards with a velocity of 30 "m.s"^(-1) from the base of the tower. When and where will the stone pieces meet?

A body of mass 2 kg is pulled with a velocity 2 m cdot s^(-1) on horizontal surface. What will be the heat produced in 5s, if the coefficient of friction between the body and the surface is 0.2? Given, J = 4.2 J cdot cal^(-1) , g = 9.8 m cdot s^(-2) .