Suppose all the surfaces in the previous problem are rough. The direction of friction on B due to A

In the above problem, direction of friction force is

Consider the situation shown in figure. The wall is smooth but the surfces of A and B in contact are rough. The friction on B due to A in equilibrium.

In the previous problem. The friction force applied by ground on block B is

Consider the situation shown in figure. The wall and the surface of A and B in contact are rough. The friction on A due to .

"When a person walks on a rough surface the frictional force exerted by the surface on the person is opposite to the direction of his motion". Is it true or false ?

suppose the ends of the coil in the previous problem are connected to a resistane of 100 Omega . Neglecting the resistance of the coil, find the heat produced in the circuit in one minute.

Suppose the ceiling in the previous problem is that the elevator which is going up with an acceleration of 2.0 m/s^2 . Find the elongations.

When a person walks on a rough surface, the frictional force exerted by surface on the person is opposite to the direction of his motion. It is the force exerted by the road on the person that causes the motion.

Suppose the rod in the previous problem has a mass of 1 kg distributed uniformly over its length. a. find the initial angular acceleration of the rod. b. Find the tension in the supports to the blocks of mass 2 kg and 5kg .

Assertion: When a person walks on a rough surface, the frictional force exerted by the surface on the person is opposite to the direction of tendenc of motion his leg. Reason: If a body moves with constant velocity, then it means that body is moving along straight line & there is no acceleration.