Four identical uniform rods of mass `m=6kg` each are welded their ends to form a square and then welded to a uniform ring having mass m = 4 kg and radius R = 1 m. The system is allowed to roll down a rough incline of inclination `theta=30^(@)`. (where g in `ms^(-2)`)

The force of friction between the system and the plane is

Four identical uniform rods of mass M=6kg each are welded at their ends to form a square and then welded to a uniform ring having mass m=4kg & radius R=1m the system is allowed to roll down on the rough and fixed incline of inclination theta=30^(@) (assume no sliding anywhere) Q. The moment of inertia of system about the axis of ring will be-

Four identical uniform rods of mass M=6kg each are welded at their ends to form a square and then welded to a uniform ring having mass m=4kg & radius R=1m the system is allowed to roll down on the rough and fixed incline of inclination theta=30^(@) (assume no sliding anywhere) Q. The acceleration of centre of mass of system is

Find the moment of inertia, about a diameter, of a uniform ring of mass M = 8kg and radius a = 1m?

For identical rods, each of mass m are welded at their ends to form a square, and the corners are then welded to a light metal hoop of radius r. If the rigid assembly of rods and hoop is allowed to roll down the inclined rough surface. If the minimum value of the coefficient of static friction which will prevent slipping is ( k)/( 10) . Find the value of k.

A hollow sphere of mass m and radius R is rolling downdard on a rough inclined plane of inclination theta . If the coefficient of friction between the hollow sphere and incline is mu , then

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 :

Find the force required to pull a block of mass 100kg up an incline of 8^(@) at a uniform speed of 5m//s . The coefficient of friction between the block and the plane is 0.3 .

A solid cylinder of mass 3 kg is placed on a rough inclined plane of inclination 30^@ . If g = 10 ms^(2) , then the minimum frictional force required for it to roll without slipping down the plane is

A wooden box of mass 8kg slides down an inclined plane of inclination 30^(@) to the horizontal with a constant acceleration of 0.4ms^(-2) What is the force of friction between the box and inclined plane ? (g = 10m//s^(2)) .

A wooden box of mass 8kg slides down an inclined plane of inclination 30^(@) to the horizontal with a constant acceleration of 0.4ms^(-2) What is the force of friction between the box and inclined plane ? (g = 10m//s^(2)) .