In the given figure a ring of mass m is kept on a horizontal surface while a body of equal mas 'm' attached through a string Which is wounded on the ring when the system is released the ring rolls without slipping consider the following statements and choose the correct option.

(1)acceleration of the centre of mass of ring is `(2g)/3`
(2) acceleration of the hanging particle is `(4g)/3`
(3) frictional force (on the ring ) acts along forward direction
(4) Frictional force (on the ring) acts along backward direction

in the given figure a ring of mass m is kept on a horizontal surface while a body of equal mass m si attached through string, which is wounded on the ring. When the system is released the ring rolls without slipping. consider the following statement and choose the correct options. (i). Acceleration of centre of mass of ring is (2g)/(3) (ii). acceleration of hanging particle is (4g)/(3) (iii). Frictional force (on the ring) acts in backward direction. (iv) . Frictional force (on the ring) acts in backward direction.

in the given figure a ring of mass m is kept on a horizontal surface while a body of equal mass m si attached through string, which is wounded on the ring. When the system is released the ring rolls without slipping. consider the following statement and choose the correct options. (i). Acceleration of centre of mass of ring is (2g)/(3) (ii). acceleration of hanging particle is (4g)/(3) (iii). Frictional force (on the ring) acts in backward direction. (iii). Frictional force (on the ring) acts in backward direction (iv) . Fraction force (on the ring) acts in backward direction.

A ring is allowed to roll down on an incline of 1 in 10 without slipping. The acceleration of its centre of mass is

A ring is allowed to roll down on an incline of 1 in 10 without slipping. The acceleration of its centre of mass is

A ring of mass m and radius R is placed on a rough inclined plane so that it rolls without slipping . Match the following table.

Two identical rings are moving with equal kinetic energy One ring rolls without slipping and other ring is in pure translational motion. The ratio of their respective speeds of centre of mass is