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A number of droplets, each of radius r, ...

A number of droplets, each of radius `r`, combine to form a drop of radius `R`. If `T` is the surface tension, the rise in temperature will be

A

`(2T)/r`

B

`(3T)/R`

C

`2T[1/r-1/R]`

D

`3T[1/r-1/R]`

Text Solution

Verified by Experts

The correct Answer is:
D
`4/3piR^(3)nxx4/3pir^(3)` or `R^(3)=nr^(3)`
Energy evolved `=(nx4pir^(2)-4pir^(2))T`
Now `theta=a/(VrhoS)=Q/V=`(In C.G.S system `rho=1` and `S=1)`
`:. theta=([nxx4pir^(2)-4piR^(2)]T)/(4/3piR^(3))`
`(3T[nr^(2)-R^(2)])/R^(3)=3T[(nr^(2))/(nr^(3))-(R^(2))/(R^(3))]=3T[1/r-1/R]`
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