A block of mass `sqrt(3) kg` is kept on a frictional surface with `mu=(1)/(2sqrt(3))`. The minimum force to be applied as shown to move the block is

A block of mass sqrt3 kg is kept on a frictional surface with mu =(1)/(2sqrt3) . The minimum force to be applied as shown the move the block is .

As shown in the figure, a block of mass sqrt3 kg is kept on a horizontal rough surface of coefficient of friction 1/(3sqrt3) The critical force to be applied on the vertical surface as shown at an angle 60^@ with horizontal such that it does not move, will be 3x. The value of x will be [g=10m//s^2,sin60^@=sqrt3/2,cos60^@=1/2]

A block of mass 1 kg in kept on a rough horizontal surface with mu_(s)=0.1 . A force of 0.5 N is applied as shown in the figure. What is the frictional force applied by ground on the block?

A force F is applied on a block of mass sqrt(3) kg which rests on a horizontal surface with a coefficient of friction 1/(2sqrt3) . The maximum value of F for which the block doesn't move, is [Take g = 10 ms^(-2)]

A block of mass sqrt(3)//10kg is placed on a rough horizontal surface as shown in the figure. A force of 1N is applied at one end of the block and the block remains stationary. The normal force exerted by the sruface on the block acts(g=10 m//s^(2) )

A block of mass 70kg is kept on a rough horizontal surface (mu=0.4) . A person is trying to pull the block by applying a horizontal force, but the block is not moving. The net contact force exerted by the surface on the block is F , then:

A block of mass 4 kg is kept on a rough horizontal surface. The coefficient of static friction is 0.8. If a force of 19 N is applied on the block parallel to the floor, then the force of friction between the block and floor is

A block of weight W is kept on a rough horizontal surface (friction coefficient mu ). Two forces W//2 each are applied as shown in the choose the correct statement .