Neglecting the air resistance, the time of flight of a projectile is determined by

The time of flight of the projectile is:

Define time of flight for a projectile .

A projectile is fired from the surface of earth of radius R with a velocity etav_(e) where v_(e) is the escape velocity and eta lt 1 . Neglecting air resistance, the orbital velocity of projectile is -

The relation between the time of flight of projectile T_(f) and the time to reach the maximum height t_(m) is

In the figure shown, find . (a) the time of flight of the projectile over the inciled plane. (b) range OP.

In the figure shown, find. (a) time of flight of the projectile along the inclined plane. (b) range OP.

In the figure shown, find. (a) time of flight of the projectile along the inclined plane. (b) range OP.

Statement-1: During flight under action of gravity, the change in velocity of a projectile in same time interval is same. (Neglect air friction) Statement-2: Neglecting air friction, the acceleration of projectile is constant during flight.

A projectile of mass m is fired with a velocity v from point P at an angle 45^@ . Neglecting air resistance, the magnitude of the change in momentum leaving the point P and arriving at Q is