A man standing on the edge of a cliff throws a stone straight upeith initial speed (u) and thenthrows another stone straight down with same initial speed and from the same position. Find the ration of the speeds. The stones would have attained when they hit ground at the base of the cliff.

A man standing on the edge of a cliff throws a stone straight up with initial speed (u) and then throws another stone straight down with same initial speed and from the same position. Find the ratio of the speeds. The stones would have attained when they hit ground at the base of the cliff.

A man standing on the edge of a cliff throws a stone straight up with initial speed (u) and then throws another stone straight down with same initial speed and from the same position. Find the ratio of the speeds. The stones would have attained when they hit ground at the base of the cliff.

A man standing on the edge of a cliff throws a stone straight up with initial speed (u) and then throws another stone straight down with same initial speed and from the same position. Find the relation of the speeds. The stones would have attained when they hit ground at the base of the cliff.

Two stones are thrown from the top of a towerone straight down with an initial speed u and the second straight up with the same speed u. When the two stones hit the ground, they will have speeds in the ratio

Two stones are thrown from the top of a tower, one straight down with an initial speed u and the second straight up with the same speed u. When the two stones hit the ground they will have speeds in the ratio.

Two stones are thrown from the top of a tower, one straight down with an initial speed and the second straight up with the same speed. When the two stones hit the ground, they will have speeds in the ratio :

From the top of a tower two stones, whose masses are in the ratio 1 : 2 are thrown one straight up with an initial speed u and the second straight down with the same speed u . Then, neglecting air resistance

A person standing downward on a tower throws a stone vertically upward with a velocity u and drops another stone downward with same initial velocity. Which stone will strike the earth with a larger velocity ?

A hiker stands on the edge of a cliff 490 m above the ground and throws a stone horizontally with an initial speed of 15ms^(-1) Neglecting air resistance, find the time taken by the stone to reach the ground and the speed with which it hits the ground? (g=9.8ms^(-2))

From the top of a tower of two stones, whose masses are in the ratio 1: 2 are thrown on straight up with an initial speed u and the second straight down with the same speed u. Then, neglecting air resistance