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A ring of radius R is made of a thin wir...

A ring of radius `R` is made of a thin wire of material of density `rho` having cross section area `a.` The ring rotates with angular velocity `omega` about an axis passing through its centre and perpendicular to the plane. If we consider a small element of the ring,it rotates in a circle. The required centripetal force is provided by the component of tensions on the element towards the centre. A small element of length `dl` of angular width `d theta` is shown in the figure.

If `T` is the tension in the ring, then

A

`T=(a rho R^(2)omega^(2))/(2)`

B

`T=a rho R^(2) omega^(2)`

C

`a^(2) rho omega^(2)`

D

`T=2arho R^(2) omega^(2)`

Text Solution

Verified by Experts

The correct Answer is:
B
As the small element `(dm =a.rho.dl)` in rotating int the circle, centripetal force
`F_(C)=d m omega^(2)R=a rho d l . Omega^(2)R`
`2T=sin (d theta )/(2)=F_(c)=a rho d l omega ^(2)R `
As `d theta` is small `sin (d theta )/(2 )=(d theta )/(2)`
`2T. (d theta)/(2)=a rho ( R d theta ) omega ^(2) R`

`rArr T=a rho R ^(2) omega ^(2) `
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