It has been observed that velocity of ripple waves produced in water `( rho)` , and surface tension `(T)` . Prove that ` V^(2) prop T// lambda rho`.

It has been observed that velocity of ripple waves produced in water `

1.	It has been observed that velocity of ripple waves produced in water `( rho)` , and surface tension `(T)` . Prove that ` V^(2) prop T// lambda rho`.
Answer» Correct Answer - `v^(2) prop (T)/ (lambda rho)` According to the problem , ` v prop lambda ^(a) rho^(b) T^(c )` ` v = k lambda ^(a) rho^(b) T^(c )` Where `k` is a dimensionless constant . ` LT%(-1) = L^(a) (ML^(-3))^(b) ( MT^(-2))^( c )` rArr `M^(0) L^(1) T^(-1) = M^( b + c) L^( a - 3b ) T^(-2 c )` Using the principle of homogenity , we get ` b + c = 0 , a - 3 b = 1 , -2c = -1 ` Solving these equations , we get `a = -(1)/(2) , b = -(1)/( 2) , c = (1)/(2)` So , the relation becomes ` v = k lambda ^(-1//2) rho^(-1//2) T^(1//2) rArr v^(2) prop (T)/( lambda rho)`

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It has been observed that velocity of ripple waves produced in water `( rho)` , and surface tension `(T)` . Prove that ` V^(2) prop T// lambda rho`.

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