A wheel is rolling along the ground with a speed of `2ms^(-1)` The magnitude of the velocity of the points at the extremities of the horizontal diameter of the wheel is equal to

A wheel of radius R rolls on the ground with a unifrom velocity v . The velocity of topmost point releative to bottom must point is

A wheel of radius 2 m rolls on the ground with uniform velocity 4 m s^(-1) . . The relative acceleration of the topmost point of the wheel with respect to the bottom - most point of the wheel is

A sphere of radius R is rolling on a rough horizontal surface. The magnitude of velocity of A with respect to ground will be

A wheel is rolling uniformly along a level road without slipping . Velocity of the highest point on its rim about the road is V . Then magnitude of velocity of a point on its rim which is at the same level as that of the centre is

A wheel rolls purely on ground. Find a point on the periphery of a body which has a velocity equal to the velocity of the centre of mass of the body.

A wheel is rolling uniformly along a level road (see figure). The speed of transitional motion of the wheel axis is V. What are the speeds of the points A and B on the wheel rim relative to the road at the instant shown in the figure?

A wheel of radius 1 m rolls forward half a revolution on a horizontal ground. The magnitude of the displacement of the point of the wheel initially on contact with the ground is.

A wheel of radius R rolls on the ground with a uniform velocity v. The relative acceleration of topmost point of the wheel with respect to the bottommost point is: