If t be the time in which a particle reaches a point P of its path and t' the time from P till it reaches the horizontal plane through the point of projection, then the height of P above the horizontal plane is `(1)/(2)`gtt' and the greatest height of projectile is `(1)/(2)g (t +t')^(2)`.

A projectile is projected and it takes 9 s to reach in the horizontal plane through the point of projection. In its path it passes a point P after 4 s . The height of P above the horizontal plane is

The vertical height of the projectile at the time is given by y=4t-t^(2) and the horizontal distance covered is given by x=3t . What is the angle of projection with the horizontal ?

A parrticle projected with velocity u strikes at right angles a plane through the point of projection inclined at angle beta to the horizon. Show that the height of the point struck above the horizontal plane through the point of projection is (2u^2)/g . (sin^2 beta)/(1+3 sin^2 beta) and that the time of flight up to that instant is t=(2u)/(g sqrt(1+3 sin^2 beta)) .

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 body is projected up with a velocity u.It reaches a point 'p' its path at times t_(1) and t_(2) seconds from the time of projection.Then (t_(1)+t_(2))

A projectile is thrown at angle beta with vertical.It reaches a maximum height H .The time taken to reach the hightest point of its path is

A particle is projected with a velocity v such that its range on the horizontal plane is twice the greatest height attained by it. The range of the projectile is (where g is acceleration due to gravity)