A small body of mass m slides without friction from the top of a hemisphere of radius r. At what hight will the body be detached from the centre of hemisphere?

A small body of mass m slide without friction from the top of a hemispherical cup of radius r as shown in figure. If leaves the surface to the cup at vertial distance h below the highest point then

Determine the position of the centre of mass of a hemisphere of radius R.

A small body of mass m slides down from the top of a hemisphere of radius r . The surface of block and hemisphere are frictionless. The height at which the body lose contact with the surface of the sphere is

A small block of mass m moving on inside of the smooth hemisphere of radius R , describes a horizontal circle at a distance R//2 below the centre of the sphere. Find the time period of revolution and force with which the block pushes against the hemisphere.

Determine the centre of mass of a uniform hemisphere of radius R.

A small disc is on the top of a hemisphere of radius R . What is the smallest horizontal velocity v that should fbe given to the disc for it to leave the hemisphere and not slide down it?[There is no friction]

A particle of mass m slides down from the vertex of semi- hemisphere, without any initial velocity. At what height from horizontal will the particle leave the sphere-

A wedge of mass m1 with its upper surface hemispherical in shape, as shown in Fig. 4E. 7 (a), rests on a smooth horizontal. surface near thewall. A small block of mass m2 slides without friction on the hemispherical surface of the wedge. What is the 'maxi.mum velocity attained by the wedge ?

A solid uniform sphere of mass m is released from rest from the rim of a hemispherical cup so that it rolls without sliding along the surface. If the rim of the hemisphere is kept horizotnal, find the normal force exerted by the cup on the ball when the ball reaches the bottom of the cup.