A block of mass 10 kg is held at rest against a rough vertical wall `[mu=0.5]` under the action a force F as shown in figure. The minimum value of F required for it is `(g=10m//s^(2))`

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

In the shown figure the minimum value of F required to move the block A away from the wall is :

A block of mass 1 kg is pushed against a rough vertical wall of mu=0.1 For F = 150, 50 or 100 N the force of friction on the blocks is respectively :

A ladder of mass 10kg is held at reat against a smooth wall on a rough ground as shown in figure. The normal reaction between the wall and the ladder is

A block of mass m is at rest under the action of force F against a wall as shown in figure. Which of the following statement is incorrect?

A 2 kg block is present against a rough wall by a force F = 20 N as shown in figure .Find acceleration of the block and force of friction acting on it . (Take g = 10 m//s^(2))

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

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

A force F is acting at an angle theta with horizontal on a block of mass 12 kg placed on a rough horizontal surface having coefficient of friction mu=frac{3}{4} as shown in the figure. The minimum value of force F to just move the block will be ( g = 10 ms^-2 )