A uniform sphere of radius R is palced on a rough horizontal surface and given a linear velocity `v_(0)` and an angular velocity `omega _(0)` as shown . If the angular velocity and the linear velocity both become zero simultaneously, then

A uniform circular disc of radius r is placed on a rough horizontal surface and given a linear velocity v_(0) and angular velocity omega_(0) as shown. The disc comes to rest after moving some distance to the right. It follows that

A disc of radius R is moving on a rough horizontal surface with velocity v and angular speed omega at an instant as shown in figure. Choose the correct statement.

A uniform circular disc placed on a horizontal rough surface has initially a velocity v_(0) and an angular velocity omega_(0) as shown in the figure. The disc comes to rest after moving some distance in the direction of motion. Then v_(0)//r omega_(0) is :

A uniform circular disc placed on a horizontal rough surface has initially a velocity v_(0) and an angular velocity omega_(0) as shown in the figure. The disc comes to rest after moving some distance in the direction of motion. Then v_(0)//omega_(0) is :

A sphere of mass m is placed on a rough surface of coefficient of friction mu . Initially the sphere is given a velocity v_(0) and angular velocity omega_(0) as shown in figure. Find out the value of omega_(0) so that the sphere will come to rest after a certain time. Sphere has radius r.

A disc of radius R has linear velocity v and angular velocity omega as shown in the figure. Given upsilon=romega find velocity of point A, B, C and D on the disc.

If the length of second s hand in a clock is 4 cm,the angular velocity and linear velocity of the tip is

A uniform solid sphere of radius r is rolling on a smooth horizontal surface with velocity V and angular velocity omega(V=omegar) . The sphere collides with a sharp edge on the wall as shown in Fig. The coefficient of friction between the sphere and the edge mu = 1//5 . Just after the collision the angular velocity of the sphere becomes equal to zero. The linear velocity of the sphere just after the collision is equal to

The assembly of two discs as shown in figure is placed on a rough horizontal surface and the front disc is given an initial angular velocity omega_(0) . Determine the final linear and angular velocity when both the discs start rolling. it is given that friction is sufficient to sustain rolling the rear wheel from the starting of motion.

A solid spherical ball of radius R collides with a rough horizontal surface as shown in figure. At the time of collision its velocity is v_(0) at an angle theta to the horizontal and angular velocity omega_(0) as shown . After collision, the angular velocity of ball may