A massless beam of langth 5 m is placed on two wedges A and B. If three forces 3 kN, 4 kN and 5 kN are applied on the beam as shown in the figure, then find normal reaction at A and B.

A block is placed on a rough horizontal plane. Three horizontalforces are applied on the block as shown in the figure. If the block is in equilibrium, find the friction force acting on the block.

A cylinder of mass M and radius R is resting on two corner edges A and B as shown in figure. The normal reaction at the edges A and B are: (Neglect friction)

A cylinder of mass M and radius R is resting on two corner edges A and B as shown in figure. The normal reaction at the edges A and B are: (Neglect friction)

Three identical cubes each of mass m are place on a smooth horizontal surface.A constant force F is applied on A as shown in the figure.The force on B applied by C is

A wedge of mass M lies on a smooth fixed wedge of inclination theta . A particle of mass m lies on the wedge of mass M in the figure. All surfaces are frictionless and the distance of the block from the fixed wedge is l . Find. (a) Normal reaction between m and M (b) the time after which the particle will hit the fixed plane.

A block of mass m is placed on a wedge The wedge can be accelerated in four manners marked as (1),(2),(3) and (4) as shown. If the normal reactions in situation (1),(2),(3) and (4) are N_(1),N_(2),N_(3) and N_(4) respectively and acceleration with which the block slides on the wedge in situation are b_(1),b_(2),b_(3) and b_(4) respectively then

A block of mass m is placed on a wedge The wedge can be accelerated in four manners marked as (1),(2),(3) and (4) as shown. If the normal reactions in situation (1),(2),(3) and (4) are N_(1),N_(2),N_(3) and N_(4) respectively and acceleration with which the block slides on the wedge in situation are b_(1),b_(2),b_(3) and b_(4) respectively then

Two blocks A and B of masses 2kg and 3kg respectively, are placed on a horizontal surface as shown (one on top of other). Find the ratio of magnitude of normal reaction between A and B to that between B and the surface, respectively

Two beams of light are incident normally on water (R.l. = 4/3 ). If the beam 1 passes through a glass (R.l. = 3/2 ) slab of height h as shown in the figure, the time difference for both beams for reaching the bottom is

A block B is pulled by a force of 18 N applied to a light pulley as shown in the figure. If the coefficient of friction is 0.4 and the acceleration of the block is 0.5 ms^(-2) , the mass of the block is (g = 10 m//s^2)