If the velocity of centre of mass of a rolling body is `V` then velocity of highest point of that body is

If V is velocity of centre of mass of a rolling body then velocity of lowest point of that body is

A cycle tyre of mass M and radius R is in pure rolling over a horizontal surface. If the velocity of the centre of mass of the tyre is v, then the velocity of point P on the tyre, shown in figure is

A wheel rolls without slipping on a horizontal surface such that its velocity of center of mass is v . The velocity of a particle at the highest point of the rim is

A solid sphere is thrown on a horizontal rough surface with initial velocity of centre of mass V_0 without rolling. Velocity of its centre of mass when its starts pure rolling is

If there is a moth sitting at point C of rolling sphere, where velocity of the centre of mass =v , calculate the velocity of the moth as seen by an oberver sitting at point D at this instant

Can the centre of mass of a body be at a point outside the body?

A 2 kg body and a 3 kg body are moving along the x-axis. At a particular instant the 2 kg body has a velocity of 3 ms^(-1) and the 3 kg body has the velocity of 2ms^(-1) . The velocity of the centre of mass at that instant is

A wheel of radius r rolling on a straight line, the velocity of its centre being v . At a certain instant the point of contact of the wheel the ground is M and N is the highest point on the wheel (diametricaly opposite to M ). The incorrect statement is -

A body of mass m moving with a constant velocity v hits another body of the same mass moving with the same velocity v but in the opposite direction and sticks to it. The velocity of the compound body after collision is