A sphere of mass m, is held between two smooth inclined walls. For `sin37^(@)=3//5`, the normal reactions of the wall (2) is equal to

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 sphere of mass m slides with velocity v on as frictionless surface towards a smooth inclined wall as shown in figure. If the collision with the wall is perfectly elastic find a. the impulse imparted by the wall on the sphere b the impulse imparted by the floor on the sphere.

A man of mass 40 kg is at rest between the walls as shown in the figure. If between the man and the walls is 0.8, find the normal reaction exerted by the walls on the man. (g = 10 ms^(-2) )

A sphere is rotating between two rough inclined walls as shoen in fiogure. Cofficent of friction between each wall and the sphere is (1)/(3) . If f_(1) and f_(2) be the ffriction forces at PO and Q. Then (f_(1))/(f_(2)) is

A small block of mass 'm' is kept on the smooth inclined plane of angle 37^@) , placed in an elevator going upward with acceleration a=g/3 , as shown in the figure. A horizontal electric field E perpendicular to the left and right vertical wall of the elevator exists. The charge on the block is +q . Find the time (in sec) when the block collide with the vertical wall. (take g=10m//s^(2) and (qE)/m=25m//s^(2) )

The ball of mas m moves with speed v againest a smooth , fixed vertical circular groove of radius R kept on smooth horizontal surface find the a. normal reaction of the floor or the ball. b. normal reaction of the vertical wall on the ball.

In the arrangement shown in figure, the rod of mass m held by two smooth walls, remains always perpendicular to the surface of the wedge of mass M . Assumming all the surface to be frictionless, find the acceleration of the rod and that of the wedge.

In the arrangement shown in the figure , the rod of mass m held by two smooth walls , remain always perpendicular to the surface of the wedge of mass M . Assuming all the surface are frictionless, find the acceleration of the rod wedge.

Two identical spheres of radii 10 cm each are placed in between two rigid walls (vertical) as shown. The spacing between the walls is 36 cm. Then find the force of contact between the spheres, if the weight of each sphere is 'W'.

In the figure, a ladder of mass m is shown leaning against a wall. It is in static equilibrium making an angle theta with the horizontal floor. The coefficient of friction between the wall and the ladder is mu_1 and that between the floor and the ladder is mu_2. the normal reaction of the wall on the ladder is N_1 and that of the floor is N_2. if the ladder is about to slip. than