A hollow spherre is released from rest on a rough inclined plane as shown in the figure. Find the velocity of point of contact as a function of time. ( m = mass of hollow sphere, R = radius of sphere )

A solid and a hollow sphere are released from the top of a sufficiently rough inclined plane. The solid sphere has same mass but its radius is half of the radius of hollow sphere. Both are performing pure rolling Which of the following statements is correct regarding their kinetic energy when they reach at the bottom of plane? (K = Kinetic energy)

A hollow sphere of mass m and radius R is rolling downdard on a rough inclined plane of inclination theta . If the coefficient of friction between the hollow sphere and incline is mu , then

A Sphere pure rolls on a rough inclined plane with initial velocity 2.8 m/s. Find the maximum distance on the inclined plane

A solid sphere of mass m is placed on a rough incline plane as shown in figure. The coefficient of friction (mu) is insufficient to start pure rolling. The sphere slides length l on incline from rest and its kinetic energy becomes k. Then work done by friction will be

A hollow sphere is released from top of an inclined plane of inclination 30º and length of inclined plane is /. If sphere rolls without slipping then its speed at bottom is

A ball of mass m and radius r rolls inside a hemispherical shell of radius R . It is released from rest from point A as shown in figure. The angular velocity of centre of the ball in position B about the centre of the shell is. .

A body of mass m and radius r is released from rest along a smooth inclined plane of angle of inclination theta . The angular momentum of the body about the instantanoues point contact after a time t from the instant of release of equal is :

A hollow conducting sphere of inner radius r and outer radius 2R is given charge Q as shown in figure, then the

A small blockofmass 'm' is released from rest at the top of a rough inclined plane as shown The coefficient of friction between the block and inclined plane is 'mu' Using work-energy theorem, find the speed of block as it passes the lowest point.

A sphere of radius 2R and mas M has a spherical cavity of radius R as shown in the figure. Find the value of gravitational field at a point P at a distance of 6R from centre of the sphere.