A disc of the radius R is confined to roll without slipping at A and B. If the plates have the velocities v and 2v as shown, the angular velocity of the disc is

the disc of the radius r is confined to roll without slipping at A and B if the plates have the velocities shown, determine the angular velocity of the disc.

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 disc of radius R rolls perfectly over two horizontal plank A and B moving with velocities v and 2v , spectively. Find the a. velocity of CM of the disc. b. angular velocity of the disc.

A disc shaped body (having a hole shown in the figure) of mass m=10kg and radius R=10/9m is performing pure rolling motion on a rough horizontal surface. In the figure point O is geometrical center of the disc and at this instant the centre of mass C of the disc is at same horizontal level with O . The radius of gyration of the disc about an axis pasing through C and perpendicular to the plane of the disc is R/2 and at the insant shown the angular velocity of the disc is omega=sqrt(g/R) rad/sec in clockwise sence. g is gravitation acceleration =10m//s^(2) . Find angular acceleation alpha ( in rad//s^(2) ) of the disc at this instant.

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 .

Two point P and Q. diametrically opposite on a disc of radius R have linear velocities v and 2v as shown in figure. Find the angular speed of the disc.

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 disc having radius R is rolling without slipping on a horizontal ( x-z ) plane. Centre of the disc has a velocity v and acceleration a as shown. Speed of point P having coordinates (x,y) is

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 mass M and radius R rolls on a horizontal surface and then rolls up an inclined plane as shown in the figure. If the velocity of the disc is v, the height to which the disc will rise will be: