A 2 kg mass starts from rest on an inclined smooth surface with inclination `30^@` and length 2m. How much will it travel before coming to rest on a frictional surface with frictional coefficient 0.25 ?

A 2 kg mass starts from rest on an inclined smooth surface with inclination 30^(@) and length 2m. How much will it travel before coming to rest on a frictional surface with frictional coefficient of 0.25

A block slides down an inclined surface of inclination 30^0 with the horizontal. Starting from rest it covers 8 m in the first two seconds. Find the coefficietn of kinetic friction between the two.

A box of mass 25 kg starts from rest and slide down as inclined plane 8 metre long and 5 meter length . It is found to move at the bottom at 7 m//s . What is the force of friction?

A block of mass 5 kg is at rest on a rough inclined surface. If angle of inclination of plane is 60^(@) , then force applied by it on block is

A block is released from rest from point on a rough inclined place of inclination 37^(@). The coefficient of friction is 0.5.

A block of mass m is released on the top of a smooth inclined plane of length x and inclination theta as shown in figure. Horizontal surface is rough. If block comes to rest after moving a distabce d on the horizontal surface, then coefficient of friction between block and surface is :-

A block of mass m starts at rest at height on a frictionless inclined plane. The block slides down the plane, travels across a rough horizontal surface with coefficient of kinetic friction mu and compresses a spring with force constant k a distance x before momentarilly coming to rest. Then the spring extends and the block travels back across the rough surface, sliding up the plane. The block travels a total distance d on rough horizontal surface. The correct experssion for the maximum height h' that the block reaches on its return is :

A block of mass sqrt2 kg is released from the top of an inclined smooth surface as shown in fighre. If spring constant of spring is 100 N/m and block comes to rest after compressing the spring by 1 m, then the distance travelled by block befor it comes to rest is

A block of mass 4 kg is released from the top of an inclined smooth surface as shown in figure If spring constant of spring is 100M//m and block comes to rest after compressiong spring by 1 m, find the distance travelled by the block before it comes t o rest.

A block of mass 8 kg is released from the top of an inclined smooth surface as shown in figure. If spring constant of spring is 200 Nm^(-1) and block comes to rest after compressing spring by 1 m then find the distance travelled by block before it comes to rest