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

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

In the time taken by the projectile to reach from A to B is t . Then the distance AB is equal to. .

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 particle is thrown vertically upwards from the surface of the earth. Let T_(P) be the time taken by the particle to travel from a point P above the earth to its highest point and back to the point P. Similarly, let T_(Q) be the time taken by the particle to travel from another point Q above the earth to its highest point and back to the same in terms of T_(P), T_(Q) and H, is :-

From a tower of height H, a particle is thrown vertically upwards with a speed u. The time taken by the particle, to hit the ground, is n times that taken by it to reach the highest point of its path. The relation between H, u and n is

From a tower of height H, a particle is thrown vertically upwards with a speed u. The time taken by the particle, to hit the ground, is n times that taken by it to reach the highest point of its path. The relation between H, u and n is

A particle startsits SHM at t=0 . At a particular instant on its way to extreme position , x= (A)/(2) . Find the time taken by the particle to come back to this point after passing through the extreme position. Hint : t_(1) = time taken to go from x=0 to x= (A)/(2) t_(2) = time taken to go to extreme position and come back to mean position = (T)/(2) Required time = (T)/(2) - t_(1)

The time of flight of the projectile 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)