Keeping the velocity of projection constant, the angle of projection is increased from 0° to 90°. Then the horizontal range of the projectile

Find the angle of projection of a projectile for which the horizontal range and maximum height are equal.

Find the angle of projection of a projectile for which the horizontal range and maximum height are equal.

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 projectiles A and B are projected with angle of projection 15^0 for the projectile A and 45^0 for the projectile B. If R_A and R_B be the horizontal range for the two projectile then.

The velocity of projection of oblique projectile is (6hati+8hatj)ms^(-1) The horizontal range of the projectile is

The maximum height attaine by a projectile is increased by 10% by increasing its speed of projecton, without changing the angle of projection. What will the percentage increase in the horizontal range.

The maximum height attaine by a projectile is increased by 10% by increasing its speed of projecton, without changing the angle of projection. What will the percentage increase in the horizontal range.

The range for a projectile that lands at the same elevation from which it is fired is given by R = (u^(2)//g) sin 2theta . Assume that the angle of projection = 30^(@) . If the initial speed of projection is increased by 1% , while the angle of projection is decreased by 2% then the range changes by

The horizontal range of a projectile is R and the maximum height attained by it is H. A strong wind now begins to below in the direction of motion of the projectile, giving it a constant horizontal acceleration =g//2 . Under the same conditions of projection. Find the horizontal range of the projectile.

A projectile is fired with a velocity v at right angle to the slope inclined at an angle theta with the horizontal. The range of the projectile along the inclined plane is