A block of mass m is moving down with constant velocity along an inclined plane of inclination `theta`. What is the work done by external force in pulling the block along the inclined plane through a height h with constant velocity?

A block of mass m moves with constant speed down the inclined plane of inclination theta . Find the coefficient of kinetic friction.

A block of mass m moves with constant speed down the inclined plane of inclination theta . Find the coefficient of kinetic friction.

A block of mas m begins to slide down on an inclined plane of inclination theta . The force of friction will be

A block is released from the top of an inclined plane of inclination theta and height h. Time required to reach the foot of the inclined plane is

A block of mass m is projected up with a velocity v_0 along an inclined plane of angle of inclination theta=37^@ . The coefficient of friction between the inclined plane AB and blocks is mu(=tan theta) . Find the values of v_0 so that the block moves in a circular path from B to C.

A cubical block of mass M and edge a slides down a rougg inclined plane of inclination theta with a uniform velocity. The torque of the normal force on the block about its centre has magnitude.

A cubical block of mass M and edge a slides down a rougg inclined plane of inclination theta with a uniform velocity. The torque of the normal force on the block about its centre has magnitude.

A cubical block of mass M and edge a slides down a rougg inclined plane of inclination theta with a uniform velocity. The torque of the normal force on the block about its centre has magnitude.