Four bodies A,B,C and D are projected with equal velocities having angles of projection `15^(@),30^(@),45^(@) and 60^(@)` with the horizontal respectively. The body having the shortest range is

Four balls A, B, C and D are projected with equal velocities having angles of projection 15^(@) , 30^(@) , 45^(@) and 60^(@) with the horizontal, respectively. The ball having the smallest range is

If four balls A,B,C,D are projected with same speed at angles of 15^(@),30^(@),45^(@) and 60^(@) with the horizontal respectively, the two balls which will fall at the same place will be-

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

Two particles are projected with same velocity but at angles of projection 35 and 55 then their horizontal ranges are in the ratio of

Two bodies of same mass are projected with the same velocity at an angle 30^(@) and 60^(@) respectively.The ration of their horizontal ranges will be

Two particles are projected with same speed but at angles of projection (45^(@)-theta) and (45^(@)+theta) . Then their horizontal ranges are in the ratio of

A body is projected from a point with different angles of projections 20^(@),35^(@),45^(@),60^(@) with the horizontal but with same initial speed. Their respective horizontal but with same initial speed. Their respective horizontal ranges are R_(1),R_(2),R_(3) and R_(4) . Identify the correct order in increasing order

Two bodies are projected at angle of 45^@ and 60^@ with the horizontal with same velocity simultaneously. Ratio of their horizontal range is.

Two bodies are projected with the same velocity. If one is projected at an angle of 30^(@) and the other at an angle of 60^(@) to the horizontal, the ratio of the maximum heights reached is

A body is projected with velocity u at an angle of projection theta with the horizontal. The direction of velocity of the body makes angle 30^@ with the horizontal at t = 2 s and then after 1 s it reaches the maximum height. Then