A uniform sphere of mass 'M' rolls without slipping on a plane surface, so that its centre moves at a speed 'v'. The kinetic energy of the body is :

A spherical ball rolls without slipping on a horizontal surface and its rotational kinetic energy is equal to the translational kinetic enregy.The body is :

The centre of mass of an extended body on the surface of the earth and its centre of gravity

A sphere is rolling without slippin on a horizontal surface and velocity of its CM.w.r.t,the ground is v,What is linear velocity of : the point Q highest point as shown in the fig. .

At what speed of a body of mass 1 kg will have a kinetic energy of 1J?

An electron beam of velocity v moving in the plane of paper enters a region of uniform magnetic field, which is perpendicular to the plane of the paper and traels in a circular path.Does the kinetic energy of electron change during this time? Give reason.

A 5 kg ball is trhown up with a speed of 10 m/s. Find its kinetic energy at the time of throw.

A particle of mass m, with charge q moving with a uniform speed v, normal to a uniform magnetic field B, describes a circular path of radius r. Derive expression for the kinetic energy of the particle?

A small sphere rolls down without slipping from the top of a track in a vertical plane. The track has an elevated section and a horizontal part is 1.0 m above the ground level and the top of the track is 2.4 m above the ground. Find the distance on the ground with respect to the point B (which is vertically ) below the end of the track as shown in figure. Where the sphere lands. During its flight as a projectile does the sphere continue to rotate about its centre of mass? Explain.