A particle is projected from the ground and simultaneously a wedge starts moving towards the right, as shown in the figure. The maximum height of the wedge for which the particle will not hit the wedge is `[g=10ms^(-2)]`

Particle projected from tower fo heigh 10m as shown in figure. Find the time (in sec) after which particle will hit the ground.

Particle is projected from the ground at a certain angle with horizontal . If particle takes time T to hit the ground again , then maximum height of the projectile is

A particle is projected at an angle 60^@ with speed 10(sqrt3)m//s , from the point A, as shown in the figure. At the same time the wedge is made to move with speed 10 (sqrt3) m//s towards right as shown in the figure. Then the time after which particle will strike with wedge is

A particle is projected at an angle 60^(@) with speed 10sqrt3 m/s from the point A as shown in the figure. At the same time the wedge is made to move with speed 10sqrt3 m/s toward right as shown in figure. Find the time after which particle will strike the wedge.

A particle is projected from point A at an angle of 53^(@) with horizontal.At the same time wedge starts from rest and moves with constant acceleration a as shown.The value of a for which the particle strikes the plane perpendicular to it at P is (tan53^(@)=4/3 g=10m/s^(2)) qquad P 45^(@) g' B'

A particle is projected from point A at an angle of 53^(@) with horizontal.At the same time wedge starts from rest and moves with constant acceleration a as shown. The value of a for which the particle strikes the plane perpendicular to it at P is (tan53^(@)=4/3 g=10m/s^(2))

Five particles are projected simultaneously from the top of a tower that is h = 32 m high. The initial velocities of projection are as shown in figure. Velocity of 2 and 5 are horizontal. (a) Which particle will hit the ground first? (b) Separation between which two particles is maximum at the instant the first particle hits the ground? (c) Which two particles are last and last but one to hit the ground? Calculate the distance between these two particles (still in air), at a time 0.3s after the third particle lands on ground. [g = 10 m//s^(2), tan 37^(@) = (3)/(4)]

A wedge of mass M = 4m lies on a frictionless plane. A particle of mass m approaches the wedge with speed v. There is no friction between the particle and the plane or between the particle and the wedge. The maximum height climbed by the particle on the wedge is given by:

A particle of mass m is placed at rest on the top of a smooth wedge of mass M, which in turn is placed at rest on a smooth horizontal surface as shown in figure. Then the distance moved by the wedge as the particle reaches the foot of the wedge is :