A body is projected with an initial elocity 20m/s at 60° to the horizontal. The displacement after 2 s is

A body is projected with an initial Velocity 20 m/s at 60° to the horizontal. Its velocity after 1 sec is

A body is projected with an initial Velocity 20 m/s at 60° to the horizontal. Its initial velocity vector is- (g=10 m//s^2 )

A particle A is projected with an initial velocity of 60 m//s at an angle 30^@ to the horizontal. At the same time a second particle B is projected in opposite direction with initial speed of 50 m//s from a point at a distance of 100 m from A. If the particles collide in air, find (a)the angle of projection alpha of particle B, (b) time when the collision takes place and (c) the distance of P from A, where collision occurs. (g= 10 m//s^2)

A body is projected with a velocity u at an angle of 60^(@) to the horizontal. The time interval after which it will be moving in a direction of 30^(@) to the horizontal is

A body is projected with an initial velocity of 58.8 m/s at angle 60° with the vertical. The vertical component of velocity after 2 sec is

A body is projected with a initial velocity of (8hati+6hatj) m s^(-1) . The horizontal range is (g = 10 m s^(-2))

A particle is projected with a velocity of 50 m/s at 37^@ with horizontal. Find velocity, displacement and co-ordinates of the particle (w.r.t. the starting point) after 2 s. Given, g=10m//s^2, sin 37^@ = 0.6 and cos 37^@ = 0.8 .

A body is projected with a velocity 60 ms ^(-1) at 30^(@) to horizontal . Its initial velocity vector is

A particle is projected from ground with velocity 50 m//s at 37^@ from horizontal. Find velocity and displacement after 2 s. sin 37^@ = 3/5 .

A particle is projected with speed 10 m//s at angle 60^(@) with the horizontal. Then the time after which its speed becomes half of initial.