A block A is held at rest against a smooth wall by application of force at p. The direction of force at P. the direction of force to be applied at P.

The direction of the force exerted on a surface by a liquid at rest is

A block of mass m is on an inclined plane of angle theta . The coefficient of friction between the block and the plane is mu and tanthetagtmu . The block is held stationary by applying a force P parallel to the plane. The direction of force pointing up the plane is taken to be positive. As P is varied from P_1=mg(sintheta-mucostheta) to P_2=mg(sintheta+mucostheta) , the frictional force f versus P graph will look like

Name a machine which can be used to : change the direction of force applied.

A block weighs W is held against a vertical wall by applying a horizontal force F. The minimum value of F needed to hold the block is

When force applied on an object causes it to moves in the direction of force

A cubical block of side 'a' is held at rest, against a rough vertical wall by applying a force F acting along the centre. The mass of the block is m . Taking acceleration due to gravity as 'g' , determine (i) The minimum coefficient of friction between the block and wall (ii) The torque by normal reaction about the centre of mass

Block a of mass 4 kg is to be kept at rest against a smooth vertical wall by applying a force F as shown in figure. The force required is :- (g=10m//s^(2))

A block of mass 1 kg is pressed against a wall by applying a horizontal force of 10N on the block. If the coefficient of friction between the block and the wall is 0.5, magnitude of the frictional force acting on the block is

A block of mass 1 kg is held at rest against a rough vertical surface by pushing by a force F horizontally. The coefficient of friction is 0.5. When

A block of mass 0.1 is held against a wall applying a horizontal force of 5N on block. If the coefficient of friction between the block and the wall is 0.5, the magnitude of the frictional force acting on the block is: