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 ladder of length l and mass m is placed against a smooth vertical wall, but the ground is not smooth. Coefficient of friction between the ground and the ladder is mu . The angle theta at which the ladder will stay in equilibrium is

A ladder of length 5 m is placed against a smooth wall as shown in figure. The coefficient or friction is mu between ladder and ground. What is the minimum value of mu , If the ladder is not to slip?

A ladder of mass 20 kg is resting against a vertical smooth wall. Ladder makes an angle 37° with the wall. Other end of the ladder is resting on a rough horizontal floor. Find normal force and force of friction applied on the ladder by horizontal surface.

A 4 m long ladder weighing 25 kg rests with its upper and against a smooth wall and lower and on rought ground.What should be the minimum coefficient of friction between the ground and ladder for it to be inclined at 60^(@) with the horizontal without slipping? (Take g =10 m//s^(2))

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))

A uniform ladder of mass 10 kg leans against a smooth vertical wall making an angle of 53^0 with it. The other end rests on a rough horizontal floor. Find the normal force and the frictional force that the floor exerts on the ladder

a ladder of length L=12 m and mass m = 45 kg leans against a slick wall (that is, there is no friction between the ladder and the wall). The ladder's upper end is at height h = 9.3 m above the pavement on which the lower end is supported (the pavement is not frictionless). The ladder's center of mass is L//3 from the lower end, along the length of the ladder. A firefighter of mass M = 72 kg climbs the ladder until her center of mass is L//2 from the lower end. What then are the magnitudes of the forces on the ladder from the wall and the pavement?