The inclined plane OA rotates in vertical plane about a horizontal axis through O with a constant counter clockwise velocity `omega=3` rad/sec. As it passes the position `theta=0`, a small m=1 kg is placed upon it at a radial distance r=0.5 m. if the mass is observed to be at rest with respect to inclined plane. The value of static friction force at `theta=37^(@)` between the mass and the incline plane

A wooden plank OA rotates in vertical plane about horizontal axis through O with a constant angular velocity omega = 3 rad/s . As it passes the position theta = 0 , a small mass m is placed upon it at a radial distance r = 0*5 m . If the mass m starts sliding at theta = 37^(@) , find the coefficient of friction between mass and the plane .

A rod OA rotates about a horizontal axis through O with a constant aniclockwise velocity omega = 3 red s^(-1) . As it passes the position theta = 0 , a small block of mass m is placed on it at a radial distance r = 450 mm if the block is observed to slip at theta = 50^(@) . Find the coefficient of static friction between the block and the rot (Given that sin 50^(@) = 0.766, cos 50^(@) = 0.64)

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

A block of mass m is at rest on an inclined plane. The coefficient of static friction is mu . The maximum angle of incline before the block begins to slide down is :

An inclined plane of angule a is fixed onto a horizontal turntable with its line of greater slope in same plane as a diameter of forntable .A small block is placed on the inclined plane a distance r from the axis the coefficient of fraction between the block and the inclined plane is mu The turntable along with incline plane spins about its axis with constant minimum angular velocity omega a. Find an capression for the minimum angular velocity omega to prevent the block from sliding down the plane in term of g, r, mu and the plane omega b. Now a block of mass but having coefficient friction (with inclined plane) 2mu is kept instead of the original block . find the radius of friction force acting between block and incline now to the friction force active in part (a)

A solid sphere of mass m rolls without slipping on an inclined plane of inclination theta . The linear acceleration of the sphere is

A body of mass m is kept on a rough fixed inclined plane of angle of inclination theta=30^(@) . It remains stationary. Then magnitude of force acting on the body by the inclined plane is equal to :

A block of mass 4kg rests on a rough horizontal plane. The plane is gradually inclined until at an angle theta=60^(@) , with the vertical, the mass just begins to side. What is the coefficient of static friction between the block and the plane?

A wheel of mass M and radius a and M.I. I_G (about centre of mass) is set rolling with angular velocity omega up a rough inclined plane of inclination theta . The distance traveled by it up the plane is

A mass of 2kg rests on a horizontal plane. The plane is gradually inclined until at an angle theta=20^(@) with the horizontal, the mass just begins to slides. What is the coefficient of static friction between the block and the surface ?