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Assume that a tunnel is dug across the e...

Assume that a tunnel is dug across the earth (radius=R) passing through its centre. Find the time a particle takes to reach centre of earth if it is projected into the tunnel from surface of earth with speed needed for it to escape the gravitational field to earth.

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The correct Answer is:
`t=sin^(-1)((1)/(sqrt(3)))sqrt((R_(e))/(g))`
let x= distance of the particle form the surface
acceleration
`(vdv)/(dx)=(GM)/(R^(3))(R-x)`
`implies_(v_(e))^(v)vdv=int_(0)^(x)g(1-(x)/(R))dx`
`implies v=sqrt(v_(e)^(2)+2g(x-(x^(2))/(2R)))=(dx)/(dt)`
`impliesint_(0)^(t)dt=int_(R)^(0)(dx)/(sqrt(2g[R+x-(x^(2))/(2R)]))`
`impliest=int_(R)^(0)(dx)/(sqrt((g)/(R)[3R^(2)-(x-R)^(2)]))`
let x-R=`sqrt(3)Rsintheta`
`dx=sqrt(3)Rcosthetad theta`
`thereforet=sqrt((R)/(g))intd theta=sqrt((R)/(g))sin^(-1)((x-R)/(sqrt(3)R))_(0)^(R)`
`impliest=sqrt((R)/(g))sin^(-1)((1)/(sqrt(3)))`
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