A projectile is thrown with an initial velocity of `(a hati +b hatj) ms^(-1)`. If the range of the projectile is twice the maximum height reached by it, then

A projectile is thrown with an initial velocity of (a hati + hatj) ms^(-1) . If the range of the projectile is twice the maximum height reached by it, then

A projectile is thrown with an initial velocity of vecv = (phati+qhatj) m/s. If the range of the projectile is four times the maximum height reached by it, then

A projectile is thrown with an initial velocity of (xveci + y vecj) m//s . If the range of the projectile is double the maximum height reached by it, then

A projectile is thrown with an initial velocity of v = a hat i + b hat j . If the range of projectile is double the maximum height reached by it. Find the ratio (b)/(a) .

A projectile is thrown with an initial velocity (v_(x)hati + v_(y)hatj) ms^(-1) . If the range of the projectile is double the maximum height , then v_(y)/v_(x) is

Statement-I : A projectile is thrown with an initial velocity of (ahat(i)+bhat(j)) m//s . If range of projectile is maximum then a=b . Statement-II : In projectile motion, angle of projection is equal to 45^(@) for maximum range condition.

A projectile is projected from ground with an initial velocity (5hati+10hatj)m//s If the range of projectile is R m, time of flight is Ts and maximum height attained above ground is Hm, find the numerical value of (RxxH)/T . [Take g=10m//s^2 ]

If the initial velocity of a projectile be doubled, keeping the angle of projection same, the maximum height reached by it will

In a projectile motion, velocity at maximum height is

The speed of a projectile at its maximum height is sqrt3//2 times its initial speed. If the range of the projectile is n times the maximum height attained by it, n is equal to :