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

The time of flight of the projectile is:

Define time of flight for a projectile .

If the time of flight of a projectile is doubled, what happens to the maximum height at tained?

Assertion : If time of flight in a projectile motion is made two times, its maximum height will become four times. Reason : In projectile motion H prop T^2 , where H is maximum height and T the time of flight.

The time of flight of a projectile is 10 s and range is 500m. Maximum height attained by it is [ g=10 m//s^(2) ]

A charged ball of mass m and charge q is projected from the ground with an initail velocity u and angle of projection theta at the time of projection vertically upward electric field E is switched on. When it reaches the maximum height electric filed is switched off and a horizontal electric feild of same magnitude E is switched on. Then answer the following question (Assume mg> qE) Q If the time of flight to the maximum height is t_1 and the time of flight maximum height to the ground is t_2 then

" For a projectile the ratio of the square of the time of flight to its maximum height is "

Ratio between maximum range and square of time of flight in projectile motion is

Assertion In projectile motion, if time of flight is made two times, then maximum height will become four times. Reason T prop sin theta and H prop sin^(2) theta , where theta is angle of projection.

Two projectiles are thrown same speed in such a way that their ranges are equal. If the time of flights for the two projectiles are t_(1) and t_(2) the value of 't_(1)t_(2)' in terms of range 'R' and 'g' is