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(B) The power transmitted by a wave is given by $P = \frac{1}{2} \mu \omega^2 A^2 v$,where $v = \sqrt{T/\mu}$.Let the lighter string have mass per uni

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$89$

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(B) The power transmitted by a wave is given by $P = \frac{1}{2} \mu \omega^2 A^2 v$,where $v = \sqrt{T/\mu}$.Let the lighter string have mass per unit length $\mu_1 = \mu$ and the heavier string have $\mu_2 = 4\mu$.The impedance of the strings are $Z_1 = \sqrt{\mu_1 T} = \sqrt{\mu T}$ and $Z_2 = \sqrt{\mu_2 T} = \sqrt{4\mu T} = 2\sqrt{\mu T}$.The amplitude of the transmitted wave $A_t$ is given by $A_t = \frac{2 Z_1}{Z_1 + Z_2} A_i = \frac{2 \sqrt{\mu T}}{\sqrt{\mu T} + 2\sqrt{\mu T}} A_i = \frac{2}{3} A_i$.The power transmitted $P_t$ is $P_t = \frac{1}{2} \mu_2 \omega^2 A_t^2 v_2$.Substituting $v_2 = \sqrt{T/4\mu} = \frac{1}{2} \sqrt{T/\mu} = \frac{1}{2} v_1$ and $A_t = \frac{2}{3} A_i$:$P_t = \frac{1}{2} (4\mu) \omega^2 (\frac{4}{9} A_i^2) (\frac{1}{2} v_1) = \frac{8}{9} (\frac{1}{2} \mu \omega^2 A_i^2 v_1) = \frac{8}{9} P_i$.The percentage of power transmitted is $\frac{8}{9} 	imes 100 \approx 88.89 \% \approx 89 \%$.

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