In the time taken by the projectile to reach from `A` to `B` is `t`. Then the distance `AB` is equal to.
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In figure shown below, the time taken by the projectile to reach from A to B is t then, the distance AB is equal to

If time taken by the projectile to reach Q is T , than PQ =

If time taken by the projectile to reach B is T, then AB is equal to

A projectile is fired horizontally with velocity of 98 m/s from the top of a hill 490 m high. Find (a) the time taken by the projectile to reach the ground, (b) the distance of the point where the particle hits the ground from foot of the hill and (c) the velocity with which the projectile hits the ground. (g= 9.8 m//s^2) .

For ground to ground projectile, time take by a particle to ge point O to point C is T_(1) and during the same motion time taken by the particle to ge from A to B is T_(2) then height 'h' is :

A stone is projected from point A with speed u making an angle 60^@ with horizontal as shown. The fixed inclined suface makes an angle 30^@ with horizontal. The stone lands at B after time t. Then the distance AB is equal to

A stone is projected from point A with speed u making an angle 60^@ with horizontal as shown. The fixed inclined suface makes an angle 30^@ with horizontal. The stone lands at B after time t. Then the distance AB is equal to

A body starts from rest and travels with uniform acceleration the time taken by the body to cover the whole distance is t. Then the time taken the body to cover the second half of the distance is

Find the time taken by the particle in going from x = (A)/2) to x=A Hint : Time taken to go from x=0 to x =A Time taken to go from x=0 to x= (A)/(2) Required time = t_(1) - t_(2)

A particle executed S.H.M. starting from its mean position at t=0 , If its velocity is sqrt3bomega , when it is at a distance b from the mean positoin, when omega=(2pi)/(T) , the time taken by the particle to move from b to the extreme position on the same side is