Calculate the energy released when 1000 small water drops each of same radius `10^(-7)m` coalesce to form one large drop. The surface tension of water is `7.0xx10^(-2)N//m`.
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Let r be the radius of smaller drops and R of bigger one. Equating the initial and final volumes, we have `(4)/(3) pi R^(3) =(1000)((4)/(3) pi r^(3))` or `R=10 r=(10)(10^(-7)) m` or `R=10^(-6) m` Further , the water drops have only one free surface. Therefore, `DeltaA=4pi R^(2)-(1000)(4pi r^(2))` `=4pi [(10^(-6))^(-2)-(10^(3))(10^(-7))^(2)]` `= -36 pi(10^(-12))m^(2)` Here, negative sign implies that surface area is decreasing. Hence, emergy released in the process. `U=T|DeltaA|` `=(7xx10^(-2))(36 pi xx10^(-12))J=7.9xx10^(-12) J`
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