A window scrubber is used to brush up a vertical window as shown in Fig. The brush weigh 12N and coefficient of kinetic friciton of 0.15. Calculate F.

A system of two blocks is placed on a rought horizontal surface as shown in figure below The coefficient of staic and kinetic friction at two surfaces are shown A force F is horizontal applied on the upper block as shown .Let f_(1) ,f_(2) represent the frictional force between upper and lower surface of contact respectively and a_(1),a_(2) represent the acceleration of 3kg and 2kg block respectively For F= 12N mark the correct option

A block of mass 2kg is acted upon by a force F= 200N at 37 as shown .The coefficient of static friction(us) is 0.6 and coefficient of kinetic friction (uk) between block and wall is 0.5 .The acceleration of the block will be

Blocks A, B and C are placed as shown in Fig and connected by the rops of negligible mass . Both A and B weigh 25.0 N each , and the coefficient of kinetic friction between each and the surface is 0.35 blocks C descends with constant velocity . a. Draw two separate free- body diagrams showing the forces acting on A and B b. Find the tension in the rope connecting blocks A and B c. What is the weight of blocks C? d. If the rope connecting A and B were cut, what would be the acceleration of C?

A block of mass m = 4 kg is placed over a rough inclined plane as shown in fig . The coefficient of friction between the block and the plane mu = 0.5 A force F = 10N is applied on the block at an angle of 30^(@) . Find the contact force between the block and the plane. k

A solid cylinder with r= 0.1 m and mass M = 2 kg is placed such that it is in contact with the vertical and a horizontal surface as shown in Fig. The coefficient of friction is mu = (1//3) for both the surfaces. Find the distance (in CM ) from the centre of the cylinder at .which a force F = 40 N should be applied vertically so that the cylinder just starts rotating in anticlockwise direction.

A block mass m = 2 kg is accelerating by a force F = 20 N applied on a smooth light pully as shown in fig 7.86 If the coefficient of kinetic friction between the block and the surface is mu = 0.3 find its acceleration

A uniform ladder 5.0 m long rests against a frictionless, vertical wall with its lower end 3.0m to from the wall. The ladder weighs 160 N . The coefficient of static friction between the foot of the ladder and the ground is 0.40 . A man weighing 740 N climbs slowly up the ladder. What is the actual frictional force when the man has climbed 1.0 m along the ladder?

A block B of mass 5kg is placed on a slab A of mass 20kg which lies on a frictionless surface as shown in the figure. The coefficient of static friction between the block and the slab is 0.4 and that of kinetic friction is 0.2. If a force F = 25N acts on B, the acceleration of the slab will be:

Two bodies A and B of masses 5 kg and 10 kg in contact with each other rest on a table against a rigid wall as shown in fig. The coefficient of friction between the bodies and the table is 0.15. A force 200 N is applied horizontally to A. What are (a) the reaction of the partition (b) the action-reaction forces between A and B ? (c) What happens when the wall is removed? Does the answer to (b) change, when the bodies are in motion? Ignore the difference between mu_(s) and mu_(k)

The 10 kg block is resting on the horizontal surface when the force F is applied to it for 7 s . The variation of F with time is shown . Calculate the maximum velocity reached by the block and the total time t during which the block is in motion. The coefficient of static and kinetic friction are both 0.50.(g = 9.8 m//s^(2))