A particle is dropped from the top of a tower of height 80 m. Assuming the dropping point as the origin and the downward direction position, sketch v-t, s-t and a-t graph. `(g=10 m//s^(2))`

A particle is dropped from the top of a tower. It covers 40 m in last 2s. Find the height of the tower.

A particle is dropped from the top of a tower. It covers 40 m in last 2s. Find the height of the tower.

A particle is dropped from the top of a tower. It covers 40 m in last 2s. Find the height of the tower.

A particle is dropped from the top of a tower of height 80 m . Find the time of jurney and the speed with which it strikes the ground.

A ball is dropped from a height of 320 m above the ground. After every collision, the speed of ball decreases by 50% . Taking dropping point as origin, downward direction positive and collision time negligible, sketch the v-t, s-t and a-t graphs. Also calculate the total distance traveled by the ball and the total time of journey.

A ball is dropped from a height of 320 m above the ground. After every collision, the speed of ball decreases by 50% . Taking dropping point as origin, downward direction positive and collision time negligible, sketch the v-t, s-t and a-t graphs. Also calculate the total distance traveled by the ball and the total time of journey.

A particle is dropped from the top of a high building 360 m. The distance travelled by the particle in ninth second is (g=10 m//s^(2))

A particle is dropped from the top of a high building 360 m. The distance travelled by the particle in ninth second is (g=10 m//s^(2))

A particle is dropped from the top of a high building 360 m. The distance travelled by the particle in ninth second is (g=10 m//s^(2))