If a stone projected from ground, takes 4 s to reach the topmost point, of its trajectory, then time of fight is

A particle is projected from the ground at an angle such that it just clears the top of a polar after t_1 time its path. It takes further t_2 time to reach the ground. What is the height of the pole ?

A bullet fired vertically up from the ground reaches a height 40 m in its path from the ground and it takes further time 2 seconds to reach the same point during descent. The total time of flight is (g=10 ms^(-2))

Two stones are projected so as to reach the same distance from the point of projection on a horizontal surface. The maximum height reached by one exceeds thr other by an amount equal to half the sum of the height attained by them. Then angle of projection of the stone which attains smaller height is

A stone is dropped from roof of building takes 5 s to reach the ground. The sound of striking is heard after 5.4 second after the stone is dropped. The velocity of sound is

A particle P is to be projected from a fixed point A on the ground with a fixed speed u . Another particle Q is also to be projected from a point B which is directly above the point A . The trajectory of the particle Q touches all possible trajectories (for different angle of projection) of the particle P in the vertical x-y plane. Find the equation of trajectory of the particle Q . (Take the point A as origin, horizontal axis x- axis and vertical axis y- axis Consider the figure.)

A stone is projected from level ground at t=0 sec such that its horizontal and vertical components of initial velocity are 10(m)/(s) and 20(m)/(s) respectively. Then the instant of time at which tangential and normal components of acceleration of stone are same is: (neglect air resistance) g=10(m)/(s^2) .

A stone is projected from level ground at t=0 sec such that its horizontal and vertical components of initial velocity are 10(m)/(s) and 20(m)/(s) respectively. Then the instant of time at which tangential and normal components of acceleration of stone are same is: (neglect air resistance) g=10(m)/(s^2) .

A train is moving with a constant speed of 10m//s in a circle of radius 16/pi m. The plane of the circle lies in horizontal x-y plane. At time t = 0, train is at point P and moving in counter- clockwise direction. At this instant, a stone is thrown from the train with speed 10m//s relative to train towards negative x-axis at an angle of 37^@ with vertical z-axis . Find (a) the velocity of particle relative to train at the highest point of its trajectory. (b) the co-ordinates of points on the ground where it finally falls and that of the hightest point of its trajectory. (Take g = 10 m//s^2, sin 37^@ = 3/5

A stone dropped from the top of a tower reaches the ground in 3 s. The height of the tower is

The ratio of the speed of a projectile at the point of projection to the speed at the top of its trajectory is x. The angle of projection with the horizontal is