A force `F` is applied at center of a uniform round object of mass `m` radius `R` and moment of inertia about its centre of mass `I_(cm)`. Find (if `(I_(cm))/(mR^(2))=k`).
`(a)` Acceleration of center of the round object if it rolls without slipping.
`(b)` Minimum coefficient of fricition required so that the round object rolls without slipping.

A force (F=Mg) is applied on the top of a circular ring of mass M and radius R kept on a rough horizontal surface. If the ring rolls without slipping, then minimum coefficient of friction required is

A force F is applied on a disc at it's centre. Find acceleration of center of mass in the case of pure rolling and also find minimum coefficient of fricition required for pure rolling.

A sphere of mass M rolls without slipping on the inclined plane of inclination theta . What should be the minimum coefficient of friction, so that the sphere rolls down without slipping ?

A uniform round body of radius R and mass m and its moment of inertia about centre of mass O is I_(cm) is given. A force F is applied at a height h above the centre of the round body. Find the height h at which force should be applied so that it rolls without friction.

A uniform round object of mass m , radius R and moment of inertia about its centre of mas I_(cm) is thrown with speed v . (Without any rotation) on a rough horizontal surface of coefficient of fricition mu . Find (take (I_(cm))/(mR^(2))=k ) (a) Time after which slipping stops (b) Speed of the round object after slipping stops (c ) Angular speed of the round object after slipping stops

A tangential force F acts at the top of a thin spherical shell of mass m and radius R . Find the acceleration of the shell if it rolls without slipping.

A tangential force F acts at the top of a thin spherical shell of mass m and radius R . Find the acceleration of the shell if it rolls without slipping.

Two forces F_(1) and F_(2) are applied on a spool of mass M and moment of inertia I about an axis passing through its centre of mass. Find the ratio (F_(1))/(F_(2)) . So that the force of friction is zero. Given that Ilt2Mr^(2) .

A uniform round object of mass M , radius R and moment of inertia about its centre of mass I_(cm) has a light, thin string wrapped several times around its circumference. The free end of string is attaced to the celling and the object is released from rest. Find the acceleration of centre of the object and tension n the string. [ Take (I_(cm))/(MR^(2))=k ]

A semicircle disc of mass M and radius R is held on a rough horizontal surface as shown in figure. The centre of mass C of the disc is at a distance of (4R)/(3pi) from the point O . Now the disc is released from this position so that it starts rolling without slipping. Find (a) The angular acceleration of the disc at the moment it is relased from the given position. (b) The minimum co-efficient of fricition between the disc and ground so that it can roll without slipping.