A stone is thrown vertically upwards with a velocity of 2943 cm. per second, find how high will it rise. After 4 seconds from the projection of A, another stone B is let fall from the same point. A will overtake B after

A stone is thrown vertically upwards with a speed of 20 m/s. How high will it go before it begins to fall? (g=9 .8 m//s^2)

A stone is thrown vertically upwards from the velcity and accleration of the stone (a) on its way (b) on its way down.

A stone of mass 0.4 kg is thrown vertically up with a speed of 9.8 ms^(-1) . Find the potential energy after half second.

A stone of 200g is thrown vertically upward at a velocity of 60m/s. The kientic energy of the stone after 7s will be (g= 10m//s^(2))

Two stones are thrown vertically upwards with the same velocity of 49 m//s . If they are thrown one after the other with a time lapse of 3 second, height at which they collide is

A stone is thrown upwards with a velocity 50 ms^-1 . Another stone is simultaneously thrown downwards from the same location with a velocity 50 ms^-1 . When the first stone is at the highest point, the velocity of the second stone is ("Take" g = 10^-2) :

A stone of mass 0.4kg is thrown vertically up with a speed of 9.8ms^(-1) . Find the potential and kinetic energies after half second.

balloon is rising vertically up with a velocity of 29 m/s. A stone is dropped from it and it reaches the ground in 10 seconds. The height of the balloon when the stone was dropped from it is (g = 9.8 m/s^2)

A stone is projected horizontally with a velocity 9.8 ms ^(-1) from a tower of height 100 m. Its velocity one second after projection is (g = 9.8 ms ^(-2)).