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Three particle each of mass m, are locat...

Three particle each of mass `m`, are located at the vertices of an equilateral triangle of side a. At what speed must they move if they all revolve under the influence of their gravitational force of attraction in a circular orbit circumscribing the triangle while still preserving the equilateral triangle ?

A

`sqrt((Gm)/(a))`

B

`sqrt((2Gm)/(a))`

C

`sqrt((3Gm)/(a))`

D

`sqrt((4Gm)/(a))`

Text Solution

Verified by Experts

The correct Answer is:
A
From the figure,
`F_(A)=F_(AB)+F_(AC)=2[(GM^(2))/(a^(2))]cos 30^(@) =[(Gm^(2))/(a^(2)),sqrt(3)]`
Also, `r=(a)/(sqrt(3))`,
Now, `(mv^(2))/(r)=F|F_(A)|or (mv^(2)sqrt(3))/(a)=(Gm)/(a)=(Gm)/(a^(2))sqrt(3)`
`v=sqrt((Gm)/(a))`.
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