A wooden block of mass `10 g` is dropped from the top of a tower `100 m` high. Simultaneously, a bullet of mass `10 g` is fired from the foot of the tower vertically upwards with a velocity of `100 m//s`. If the bullet is embedded in it, how high will the block rise above the top of tower before it starts falling? `(g=10m//s^2)`

A wooden block of mass 10 gm is dropped from the top of a tower 100m high. Simultaneously, a bullet of mass 10 gm is fired from the foot of the tower vertically upwards with a velocity of 100m//sec , figure. If the bullet is embedded in it, how high will it rise above the tower before it starts falling ? (Consider g=10m//sec^(2))

A wooden block of mass 10 gm is dropped from the top of a cliff 100 m high. Simultaneously a bullet of mass 10 gm is fired from the foot of the cliff upward with a velocity 100 m/s . The bullet and the wooden will meet each other after a time in seconds

A wooden block is dropped from the top of a cliff 100m high and simultaneously a bullet of mass 10 g is fired from the foot of the cliff upwards with a velocity of 100 m//s . The bullet and wooden block will meet each other after a time:

A wooden block is dropped from the top of a cliff 100 m high. Simultaneously a bullet of mass 10 g is fired from the foot of the cliff upwards with a velocity of 100 ms^(-1) . The bullet and wooden block will meet each other after a time

A wooden block of mass 20g is dropped from the top of the cliff 50 m high. Simultaneously a bullet of mass 20 g is fired from the foot of the cliff upwards with a velocity 25 ms^(-1) . The bullet and the wooden block will meet each other after time :

A wooden block of mass 10 gm is dropped from the top of a cliff 100 m high. Simultaneously a bullet of same mass is fired from the foot of the cliff vertically upwards with a velocity of 100 ms^(-1) . If the bullet after collision gets embedded in the block, the common velocity of the bullet and the block immediately after collision is (g=10 ms^(-2)) .

A wooden block of mass 10g is dropped from the top of a cliff 100 m high. Simultaneously, a bullet of mass 10 g is fired from the foot of the cliff vertically upwards with a velocity of . 100 m//s (i) Where and after what time will they meet (ii) If the bullet after striking the block gets embedded in it how high will it rise above the cliff before it starts falling

A piece of wood of mass 0.03 kg is dropped from the top of a building 100 m high. At the same time, a bullet of mass 0.02 kg is fired vertically upward with a velocity of 100 m/s from the ground the bullet gets embedded in the wooded piece after striking. find the height to which the combination rises above the building before it starts falling take g=10m//s^(2)