A block can slide along incline plane as shown in figure. The acceleration of chamber is `( 2)/( sqrt( 3))g m//s^(2)` horizontally as shown. Find the time when the block collide with the vertical wall AB of the chamber ( take g `= 10 m//s^(2)` )

Two blocks 4 kg and 2 kg are sliding down an incline plane as shown in figure. The acceleration of 2 kg block is.

A block is sliding along an inclined plane as shown in figure . If the acceleration of chamber is a as shown in figure. The time required to cover a distance L along inclined is

Two blocks 4 kg and 2 kg are sliding down an incline plane as shown in fig The acceleration of 2 kg block is:

In the system shown in the adjoining figure, the acceleration of the 1 kg mass is m//s^(2) . (take g = 10 m//s^(2) )

Mass m_(1)" & "m_(2) are placed on a rough inclined plane as shown in figure. Find out the acceleration of the blocks and contact force in between these surface.

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) )

In the figure shown, the acceleration of block of mass m_(2) is 2m//s^(2) . The acceleration of m_(1) :

Find time of flight and range of the projectile along the inclined plane as shown in figure. (g = 10 m//s^2)

Find time of flight and range of the projectile along the inclined plane as shown in figure. (g = 10 m//s^2)

Find time of flight and range of the projectile along the inclined plane as shown in figure. (g = 10 m//s^2)