A cylinder of mass m radius R is spined to a clockwise angular velocity `omega_(o)` and then gently placed on an inclined plane for which coefficient of friction `mu = tan theta, theta` is the angle of inclined plane with the horizontal. The centre of mass of cylinder will remain stationary for time

An cylinder of mass m is rotated about its axis by an angular velocity omega and lowered gently on an inclined plane as shown in figure. Then : .

A mass placed on an inclined place is just in equilibrium. If mu is coefficient of friction of the surface, then maximum inclination of the plane with the horizontal is

A ball of mass m and radius R rotating with an angular speed omega_(0) as shown in the figure is placed on an incline plane. Coefficient of friction is 1// sqrt(3) and the length of the incline plane is L. The angle of inclination of the plane is theta = 30^(@) . Find after what time it will reach at the bottom most point.

A block with a square base measuring axxa and height h, is placed on an inclined plane. The coefficient of friction is mu . The angle of inclination (theta) of the plane is gradually increased. The block will

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

Show that a cylinder will slip on an inclined plane if the coefficient of static friction between the plane and the cylinder is less than 1/3tantheta where theta is the angle of the inclination with the horizontal.

The least coefficient of friction for an inclined plane inclined at angle alpha with horizontal in order that a solid cylinder will roll down without slipping is

A block of mass m rests on a rough inclined plane. The coefficient of friction between the surface and the block is µ. At what angle of inclination theta of the plane to the horizontal will the block just start to slide down the plane?

A uniform circular cylinder of mass m and radius r is given an initial angular velocity omega_() and no initial translational velocity it is placed in contact with a plane inclined at an angle alpha to the horizontal. If there is a coefficient of friction mu for sliding between the cylinder and plane. Find the distance the cylinder moves up before sliding stops also calculate the maximum distance it travels up the plane assume mugttanalpha .