A stone of mass 2 kg is projected upwards with KE of 98 J. The height at which the KE of the body becomes half its original value, is given by (take, `g=9.8ms^(-2)`)

A body of mass 5 kg is thrown vertically up with a kinetic energy of 490 J. What will be height at which the kinetic energy of the body becomes half of the original value ? (Acceleration due to gravity =9.8ms^(-2) )

A body of mass 2 kg is thrown up vertically with kinetic energy of 490 J . If g = 9.8m//s^(2) , the height at which the kinetic energy of the body becomes half of the original value, is

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 mass 0.10 kg is projected vertically upward by expending 80 J of energy. How high the stone rises ? [Take g=10 ms^(-2) ] [80 m]

A stone of mass 0.4 kg is projected vertically upward through a height 10 m. if g=10 ms^(-2) , calculate the potential energy of the stone at the highest point.

A particle of mass 2 kg is projected vertically upward with a velocity of 20 m/s. It attains maximum height of 17 m. The loss in mechanical energy due to air drag is ( g = 10 ms^-2)

A stone is dropped from the top of a tower of height h=60m. Simultaneously another stone is projected vertically upwards from the foot of the tower. They meet at a height (2h)/3 from the ground level. The initial velocity of the stone projected upwards is (g=10ms^(-2))

A balloon of mass 10 kg is raising up with an acceleration of 20 ms^(-2) . If a mass of 4 kg is removed from the balloon its acceleration becomes ( take, g=10ms^(-2) )

A body of mass 0.2 kg falls from a height of 10 m to a height of 6 m above the ground. Find the loss in potential energy taking place in the body. [g=10ms^(-2)]

A particle of mass 1 kg is projected upwards with velocity 60 m/s. Another particle of mass 2 kg is just deopper from a certain height. After 2 kg is just of the particles have colliided with ground, match the following [ Take g= 10 m//s^(2) ]