Two particles are projected from ground with same intial velocities at angles `60^(@)` and `30^(@)` (with horizontal). Let `R_(1)` and `R_(2)` be their horizontal ranges, `H_(1)` and `H_(2)` their maximum heights and `T_(1)` and `T_(2)` are the time of flights.Then

Two particle are projected with same initial velocities at an angle 30^(@) and 60^(@) with the horizontal .Then

Two bodies are projected from the same point with same speed in the directions making an angle alpha_(1) and alpha_(2) with the horizontal and strike at same point in the horizontal plane through a point of projection. If t_(1) and t_(2) are their time of flights.Then (t_(1)^(2)-t_(2)^(2))/(t_(1)^(2)+t_(2)^(2))

The ranges and heights fo r two projectiles projected with the same initial velocity at angles 42^@ and 48^@ with the horizontal are R_1 , R_2 and H_1, H_2 respectively. Then

Two bodies are thrown from the same point with the same velocity of projection angles of projection being complimentary angles. If R_(1) and R_(2) are the ranges and h_(1) and h_(2) are maximum heights respectively, then

Two particles are projected obliquely from ground with same speed such that their range 'R' are same but they attain different maximum heights h_(1) and h_(2) then relation between R, h_(1) and h_(2) is:

A particle is projected with a velocity of 25 m//s at an angle of 30^(@) with the horizontal . Calculate (i) The maximum height , (ii) time of flight and (iii) horizontal range .

Two particles are projected from the same point making angles, angle theta_1 and theta_2 with the horizontal respectively in such a way that their horizontal velocities are equal. The ratio of maximum heights (H_1/H_2) will be equal to

The ranges and heights fo r two projectiles projected with the same initial velocity at angles 42^@ and 48^@ with the horizontal are R_1 , R_2 and H_1, H_2 respectively. Choose the correct option :

A particle is projected from ground with an initial velocity 20m//sec making an angle 60^(@) with horizontal . If R_(1) and R_(2) are radius of curvatures of the particle at point of projection and highest point respectively, then find the value of (R_(1))/(R_(2)) .