The center of a wheel rolling on a plane surface moves with a speed `v_0`. A particle on the rim of the wheel at the same level as the center will be moving at speed

The centre of a wheel rolling without slipping on a plane surface moves with a speed v_(0) . A particle on the rim of the wheel at the same level as the centre of wheel will be moving with speed

Consider a wheel of a bicycle rolling on a level road at a linear speed v_0 figure.

Assertion: If there are no external forces, the center of mass of a double star moves like a free particle. Reason: If we go to the center of mass frame, then we find that the two stars are moving in a circle about the center of mass, which is at rest.

When a particle moves in a circle with a uniform speed

A wheel ios rolling without sliding on a horizontal surface. The centre of the wheelk moves with a constant speed v_(0) . Consider a point P on the rim which is at the top at time t=0. The square of speed of point P is plooted against time t. The correct plot is (R is radius of the wheel)

A dust particle lying at the rim of a wheel has an angular speed of 22 rad/s. Find the time period.

If the speed of a particle moving at a relativistic speed is doubled, its linear momentum will

Study the following graph: The particle is moving with constant speed .

A sphere of mass m rolls on a plane surface. Find its kinetic energy at an instant when its centre moves with speed v.

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?