In the figure shown, the minimum force `F` to be applied perpendicular to the incline so that the block does not slide is

A block of mass m=2kg is resting on a rough inclined plane of inclination plane of inclination 30^(@) as shown in figure. The coefficient of friction between the block and the plane is mu=0.5 . What minimum force F should be applied perpendicular to the plane on the block, so that blocks does not slip on the plane? (g=10m//s^(2))

A block of mass m = 2kg is resting on a inclined plane of inclination 30^(@) as shown in figure The coefficient of friction between the block and the plane is mu = 0.5 what minimum force F (in newton) should be applied perpendicular to the plane on the block so that the does not slip on the plane?

Find out the minimum force that must be applied on the block vertically downwards so that the block doesn’t move.

In the figure shown, horizontal force F_(1) is applied on a block but the block does not slide. Then as the magnitude of vertical force F_(2) is increased from zero the block begins to slide, the correct statement is

A block of mas M is resting on an inclined plane as shown in the figure. The inclination of the plane to the horizontal is gradually increased. It is found that when the angle of inclination is theta the block just begins to slide down the plane. What is the minimum force F applied parallel to the plane that would just make the block move up the plane ?

A block of mass m is placed on a rough inclined plane. When the inclination of the plane is theta , the block just beging to slide down the plane under its own weight. The minimum force applied parallel to the plane, to move the block up the plane, is.

As shown in figure, if we apply a horizontal force F on the block, find the maximum force F (in N ) that can be applied so that block does not slide up. ( "Given" theta=45^(@),g=10m//sec^(2), m=1/5kg,mu=1/2)

A block mass 'm' is placed on a frictionless inclined plane of inclination theta with horizontal. The inclined plane is accelerated horizontally so that the block does not slide down. In this situation vertical force exerted by the inclined plane on the block is: