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A stone is projected from level ground w...

A stone is projected from level ground with speed u and ann at angle `theta` with horizontal. Somehow the acceleration due to gravity (g) becomes double (that is 2g) immediately after the stone reaches the maximum height and remains same thereafter. Assume direction of acceleration due to gravity always vertically downwards.
Q. The horizontal range of particle is

A

`(3)/(4)(u^(2)sin2theta)/(g)`

B

`(u^(2)sin 2theta)/(2g) (1+(1)/(sqrt(2)))`

C

`(u^(2))/(g) sin 2theta`

D

`(u^(2)sin2theta)/(2g) (2+(1)/(sqrt(2)))`

Text Solution

Verified by Experts

The correct Answer is:
B
The time taken to reach maximum height and maximum height are `t=(usintheta)/(g)andH=(u^(2)sin^(2)theta)/(2g)`
For remaining half, the time of flight is
`t'=sqrt((2H)/((2g)))=sqrt((u^(2)sin^(2)theta)/(2g^(2)))=(t)/(sqrt(2))`
`:.` Total time of flight is `t+t',T=t(1+(1)/(sqrt(2)))`
`T=(usintheta)/(g)=(1+(1)/(sqrt(2)))`
So horizontal range is u `costhetaxxT=(u^(2)sin2theta)/(2g)(1+(1)/(sqrt(2)))`
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