The speed with which a bullent can be fired is `150 ms^(-1)`. Calculate the greatest distance to which it can be projected and also the maximum height to which it would rise .

A body is thrown vertically upward with velocity u , the greatest height h to which it will rise is,

A force of 75 N can produce a pressure of 150,000 Pa. Calculate the area in cm ^(2) on which the force acts.

The greatest height to which a boy can throw a stone is (h). What will be the greatest distance on horizontal surface upto which the boy can throw the stone with the same speed ? Neglect the air friction.

The velocity of a body moving vertically up is 49 ms^(-1) at half the maximum height. The height to which it could further rise is

A block is tied to one end of a light string of length 1 whose other end is fixed to a rigid support. The block is given a speed of sqrt(7gl//2) from the lowermost position. Find the height and speed at which the block leaves the circle. Also find the maximum height to which it rises finally.

When the speed of a car is u , the mimimum distance over which it canbe stopped is a , If speed becomes nu , what will be the mimimum distance over which it can be stopped during the same time?

A gun fires a bullet at a speed of 140 ms^(-1) . If the bullet is to hit a target at the same level as the gun and at 1km distance, the angle of projection may be

The maximum vertical distance through which a full dressed astronaut can jump on the earth is 0.5m. Estimate the maximum vertical distance through which he can jump on the motion, which has a mean density 2/3 rd that of the earth and radius one-quarter that of the earth.

A car can be stopped within a distance of s when its speed is v. What is the minimum distance within which the car can be stopped during the same time when its speed is nv ?

A stone is projected vertically up from the ground with velocity 40 ms^(-1) . The interval of time between the two instants at which the stone is at a height of 60 m above the ground is (g = 10 "ms"^(-2))