A sphere is projected up an inclined plane with a velocity `v_(0)` and zero angular velocity as shown. The coefficient of friction between the sphere and the plane is `mu=tantheta`.. Find the total time of rise of the sphere.

A block is stationary on an inclined plane If the coefficient of friction between the block and the plane is mu then .

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 uniform solid sphere of radius r is rolling on a smooth horizontal surface with velocity V and angular velocity omega=(V=omegar) . The sphere collides with a sharp edge on the wall as shown in Fig. The coefficient of friction between the sphere and the edge mu = 1//5 . Just after the collision the angular velocity of the sphere becomes equal to zero. The linear velocity of the sphere just after the collision is equal to

A uniform solid sphere of radius r is rolling on a smooth horizontal surface with velocity V and angular velocity omega(V=omegar) . The sphere collides with a sharp edge on the wall as shown in Fig. The coefficient of friction between the sphere and the edge mu = 1//5 . Just after the collision the angular velocity of the sphere becomes equal to zero. The linear velocity of the sphere just after the collision is equal to

A uniform solid sphere of radius r is rolling on a smooth horizontal surface with velocity v and angular velocity omega = (v=omega r) . The sphere collides with a sharp edge on the wall as shown in figure. The coefficient of friction between the sphere and the edge mu=1//5 . Just after the collision the angular velocity of the sphere becomes equal to zero. The linear velocity of the surface just after the collision is equal to

A paricle is projected up from the bottom of an inlined plane of inclination alpha with velocity v_0 If it returns to the points of projection after an elastic impact with the plane, find the total time of motion of the particle.