A body is projected at angle 30° to hori...

A body is projected at angle 30° to horizontal on a planet with a velocity of 80 `ms^(-1)` its time of flight is 4 seconds then acceleration due to gravity on that planet is

A

`2 ms^(-2)`

B

`5 ms^(-2)`

C

`10 ms^(-2)`

D

`20 ms^(-2)`

Text Solution

Verified by Experts

The correct Answer is:

D

Similar Questions

Explore conceptually related problems

A body is projected at angle 30° to horizontal with a velocity 50 ms^(-1) . Its time of flight is (g=10 m//s^2 )

A body is projected at angle 30° to the horizontal with a velocity 50 ms^(-1) maximum height of projectile is

A particle is projected at an angle theta =30^@ with the horizontal, with a velocity of 10ms^(-1) . Then

A body is projected at angle 30° to horizontal with a velocity 50 ms^(-1) .In the above problem range of body is m. [g = 10 ms^(-2) ]

A ball is projected at an angle 30° with the horizontal with the velocity 49 ms^(-1) . The horizontal range is

A body is projected at an angle theta so that its range is maximum. If T is the time of flight then the value of maximum range is (acceleration due to gravity= g)

A body is projected up with a velocity 50 "ms"^(-1) after one second if accelaration due to gravity disappears then body

A planet has a mass of 2.4xx10^(26) kg with a diameter of 3xx10^(8) m. What will be the acceleration due to gravity on that planet ?

A body is projected at an angle 30° with a velocity 42 ms^(-1) Its maximum height is

The mass of a planet and its diameter are three times those of earth's. Then the acceleration due to gravity on the surface of the planet is : (g =9.8 ms^(-2))

A body is projected at angle 30° to horizontal on a planet with a velocity of 80 `ms^(-1)` its time of flight is 4 seconds then acceleration due to gravity on that planet is

Text Solution

Similar Questions

Recommended Questions