Home
Class 12
PHYSICS
The inclined plane OA rotates in vertica...

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

Promotional Banner

Similar Questions

Explore conceptually related problems

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 anti-clockwise velocity omega=3 rad//s. As it pases the positions theta=0^(@) a small block of mass m is placed on it at a radial distacne r=450 mm If the block is observed to slip at theta=50^(@) the coefficient of static friction bewteen the block and the rod is (Given that , sin50^(@)=0766,cos 50^(@)=0.64 )

A rod OA rotates about a horizontal axis through O with a constant anti-clockwise velocity omega=3 rad//s. As it pases the positions theta=0^(@) a small block of mass m is placed on it at a radial distacne r=450 mm If the block is observed to slip at theta=50^(@) the coefficient of static friction bewteen the block and the rod is (Given that , sin50^(@)=0766,cos 50^(@)=0.64 )

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 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 solid cylinder of mass m rolls without slipping down an inclined plane making an angle theta with the horizontal. The frictional force between the cylinder and the incline is