A cannot shell is fired to hit a target at a horizontal distance R. However, it breaks into two equal parts at its highest point. One part (A) returns to the cannon. The other part

A cannon shell is fired to hit a target at a horizontal distance R. However, it breaks into two equal parts at its highest point. One part (A) returns to the cannon. The other part:

A cannon shell is fired to hit a target at a horizontal distance R. However, it breaks into two equal parts at its highest point. One part (A) returns to the cannon. The other part is:

A cannon shell 1 and 2 km away from the cannon. A second shell, fired identically, breaks into two equal parts at the highest point. One part falls vertically. How far from the cannon will the other land?

A particle is projected with velocity 'u' makes an angle theta w.r.t. horizontal. Now it breaks in two identical parts at highest point of trajectory. If one part is retrace its path, then velocity of other part is -

A particle is projected with velocity 'u' makes an angle theta w.r.t. horizontal. Now it breaks in two identical parts at highest point of trajectory. If one part is retrace its path, then velocity of other part is -

A canon shell fired breaks into two equal parts at its highest point. One part retraches the path to the canon with kinetic enegry E_(1) and the kinetic energy of the second part is E_(2) . Relation between E_(1) and E_(2) is

A canon shell fired breaks into two equal parts at its highest point. If one part reatraces the path to the canon with kinetic energy E_1 and kinetic energy of the second part is E_2 , then

A projectile is moving at 60 m//s at its highest point, where it breaks into two equal parts due to an internal explosion. One part moves vertically up at 50m//s with respect to the ground. The other part will move at