Two cliffs of heights `120 m` and `100.4 m` are separated bya horizontal distance of `16 m` if a car has to reach from the first cliff to the second the horizontal velocity of car should be

Two point masses m and M are separated bya distance L . The distance of the centre of mass of the system from m is

In between two hills of heights 100 m and 92 m respectively, there is a valley of breadth 16 m.Vehicle was initally at rest. If a vehicle jumps from the first hill to the second, what must be its minimum horizontal velocity so that it may not fall into the valley ? Take g = 9 ms^-2 .

A body of mass m is projected horizontally with a velocity v from the top of a tower of height h and it reaches the ground at a distance x from the foot of the tower. If a second body of mass 2m is projected horizontally from the top of a tower of height 2h, it reaches the ground at a distance 2x from the foot of the tower. The horizontal velocity of the second body is :

A body is projected horizontally from a height of 20 m . It reaches the ground at a horizontally distance of 40 m . The speed of practicle when it hits the ground is

Two vertical poles AL and BM of height 4 m and 16 m respectively stand apart on a horizontal plane. If A, B be the feet of the poles and AM and BL intersect at P, then the height of P from the horizontal plane is equal to

From the top of a cliff of height 150 m, a stone is thrown up with a velocity of 19.6 m//s , at an angle of 60 ^(@) with the vertical . Calculate the distance of the point where it strickes on the ground from the foot of the cliff .