For an oblique projection find the ratio of solpe at any instant to the initial slope if , x R denote horizontal distance and horizontal range .

Two balls are projected from the same point in the direction inclined at 60^(@) and 30^(@) to the horizontal. If they attain the same height , what is the ratio of their velocities ? What is the ratio of their initial velocities if they have same horizontal range ?

Two particles are separated at a horizontal distance x as shown in (Fig. 5.57). They are projected at the same time as shown in the figure with different initial speed. Find the time after which the horizontal distance between the particles becomes zero. .

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.

A ball is projected with velocity u at right angle to the slope which inclined at an angle alpha with the horizontal. The distance x along the inclined plane that it will travell before again striking the slope is-

An object is projected with a velocity of 30 ms^(-1) at an angle of 60^(@) with the horizontal. Determine the horizontal range covered by the object.

A ball is projected at an angle 30° with the horizontal with the velocity 49 ms^(-1) . The horizontal range is

A body is projected at an angle of 45^(@) with horizontal with velocity of 40sqrt(2)m//s . Find out (i) Maximum height attained by body (ii) Time of flight (iii) Horizontal range (iv) Velocity at maximum height (v) The ratio of Kinetic energy to potential energy at highest point (vi) The part equation of projectile, assuming point of projection as origin and consider x and y are horizontal and vertical distance in meter (vii) The horizontal distance covered by body in 2 second (viii) The vertical distance covered by body in 2 second

One second after the projection, a stone moves at an angle of 45^@ with the horizontal. Two seconds from the start, it is travelling horizontally. Find the angle of projection with the horizontal. (g=10 ms^(-2)) .

If the time of flight of a bullet over a horizontal range R is T, then the angle of projection with horizontal is -

For an object projected from ground with speed u horizontal range is two times the maximum height attained by it. The horizontal range of object is