A ring of mass `m` and radius `r` is projected with velocity `v_(0)` while spinning with angular velocity `(v_(0))/(4 r)` at the bottom of an inclined plane of angle of inclination `theta - 60^@` as shown in fig. The ring begins to roll without slipping after colliding with the inclined plane. Before collision sence of rotation is depicyed in the fig.
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Loss of kinetic enegry of ring during collision is-

A ring of mass m and radius r is projected with velocity v_(0) while spinning with angular velocity (v_(0))/(4 r) at the bottom of an inclined plane of angle of inclination theta - 60^@ as shown in fig. The ring begins to roll without slipping after colliding with the inclined plane. Before collision sence of rotation is depicyed in the fig. . Velocity of center of mass of the ring just after the collision is :

A ring of mass m and radius r is projected with velocity v_(0) while spinning with angular velocity (v_(0))/(4 r) at the bottom of an inclined plane of angle of inclination theta - 60^@ as shown in fig. The ring begins to roll without slipping after colliding with the inclined plane. Before collision sence of rotation is depicyed in the fig. . If the ring after collision rolling up the incline then maximum height attained by it is :

A rolling object rolls without slipping down an inclined plane (angle of inclination theta ), then the minimum acceleration it can have is. .

A ring of mass m and radius R is being rotated about its axis with angular velocity omega . If a increases then tension in ring

A uniform solid sphere of mass m and radius 'R' is imparted an initial velocity v_(0) and angular omega_(0) = (2v_(0))/(R ) and then placed on a rough inclined plane of inclination 'theta' and coefficient of friction mu = 2 tan theta as shown. The time after which the sphere will start rolling without slipping is

A particle is projected up with a velocity of v_(0)=10m//s at an angle of theta_(0)=60^(@) with horizontal onto an inclined plane. The angle of inclination of the plane is 30^(@) . The time of flight of the particle till it strikes the plane is (take g=10ms^(-2) )

A ring is rolling on an inclined plane. The ratio of the linear and rotational kinetic energies will be

A drum of radius R and mass M, rolls down without slipping along an inclined plane of angle theta . The frictional force-