A disc of radius `R` rolls without slipping at speed `v` along positive `x`-axis. Velocity of point `P` at the instant shown in Fig. is

A wheel of radius r rolls without slipping with a speed v on a horizontal road. When it is at a point A on the road, a small blob of mud separates from'the wheel at- its highest point and lands at point B on the road:

A wheel of radius r rolls without slipping with a speed v on a horizontal road. When it is at a point A on the road, a small blob of mud separates from'the wheel at- its highest point and lands at point B on the road:

During rolling without slipping, what is the velocity of the point in contact with the surface.

A disc of mass m and radius R is rolling without slipping as shown in the figure. The magnitude of net velocity of the point P is (OP = R/2)

A circular disc of radius R rolls without slipping along the horizontal surface with constant velocity v_0 . We consider a point A on the surface of the disc. Then, the acceleration of point A is

A disc of radius r rolls without slipping on a rough horizontal floor. If veloocity of its centre of mass is v_(0) , then velocity of point P, as shown in the figure (OP=r // 2 and angleQOP=60^(@) )is

A disc of radius R is rolling without sliding on a horizontal surface with a velocity of center of mass v and angular velocity omega in a uniform magnetic field B which is perpendicular to the plane of the disc as shown in Fig. 3.179. O is the center of the disc and P, Q, R, and S are the four points on the disc. Which of the following statements is true?

A cylinder of radius R is to roll without slipping between two planks as shown in the figure. Then

The disc of radius r is confined to roll without slipping at A and B . If the plates have the velocities shown, then

A uniform circular disc of mass M and radius R rolls without slipping on a horizontal surface. If the velocity of its centre is v_0 , then the total angular momentum of the disc about a fixed point P at a height (3R)//2 above the centre C .