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Three uniform spheres each having a mass...

Three uniform spheres each having a mass M and radius a are kept in such a way that each touches the other two. Find the magnitude of the gravitational force on any of the spheres due to the other two.

A

`(Gm^(2))/(r^(2))`

B

`(Gm^(2))/(4r^(2))`

C

`sqrt2(Gm^(2))/(4r^(2))`

D

`sqrt(3)(Gm^(2))/(4r^(2))`

Text Solution

Verified by Experts

The correct Answer is:
D
The given system may be regarded as a system of three particles located at the three vertidcals of an equilateral triangle of side `2r`.
Now, `F_(A)=F_(B)=(Gm^(2))/((2r)^(2))=(Gm^(2))/(4r^(2))`
`F_(A)` and `F_(b)` are inclined to each other at the angle of `60^@`. If `F` is the resultant of `F_(A)` and `F_(b)` then
`F=sqrt(3)xx(GM^(2))/(4r^(2))`
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