Forces are applied on a wheel of radius 20 cm as shown in the figure. The torque produced by the forces 4 N at A, 8N at B, 6 N at C and 9N at D at angles indicated is

If 100N force is applied to 10kg. block as shown in diagram then acceleration produced for slab-

A car moves at a constant speed on a road as shown in figure. The normal force by the road on the car is N_A and N_B when it is at the points A and B respectively .

If 100 N force is applied to 10 kg block as shown is diagram, then the acceleration produced in lower block is

A force of 40 N acts on a point B at the end of the L-shaped object, as shown in the figure. The angle theta that will produce maximum moment of the force about point A is given by :

A clockwise torque of 6N-m is applied to the circular cylinder as shown in the figure. There is no friction between the cylinder and the block.

A block of mass 10 kg is placed on a horizontal surface as shown in the figure and a force F = 100 N is applied on the block as shown, in the figure. The block is at rest with respect to ground. If the contact force between block and ground is 25n (in Newton) then value of n is : (Take g = 10 m//s^(2))

A force of 6 N and another of 8 N can be applied together to produce the effect of a single force of

A wheel of radius 10 cm can rotate freely about its centre as shown in figure. A string is wrapped over its rim and is pulled by a force of 5.0 N. It is found that the torque produces an angular acceleration 2.0 rad s^-2 in the wheel. Calculate the moment of inertia of the wheel.

Two blocks of mass 4kg and 6kg are connected by a string as shown in the figure. They are initially at rest on the floor. Calculate their acceleration when a force of (a) 50N (b) 100N is applied on the pulley.

The resultant of two forces 2 N and 3 N is sqrt(19) N. The angle between the forces is