A mass of 20 kg is hanging with support of two strings of same linear mass density. Now pulses are generated in both strings at

Q: A mass of $20\ kg$ is hanging with support of two strings of same linear mass density. Now pulses are generated in both strings at same time near the joint at mass. Ratio of time, taken by a pulse travel through string $1$ to that taken by pulse on string $2$ is

c $\frac{4 T_{1}}{5}=\frac{3 T_{2}}{5} \Rightarrow T_{1}=\frac{3}{4} T_{2}$ $v=\sqrt{\frac{T}{\mu}} \Rightarrow \frac{v_{1}}{v_{2}}=\sqrt{\frac{3}{4}}$ ${l_1} = 10 \times \frac{4}{5} = 8\,m$ ${l_2} = 10 \times \frac{3}{5} = 6\,m$ $\frac{t_{1}}{t_{2}}=\frac{v_{1} / v_{1}}{v_{2} / v_{2}}=\frac{8}{6} \sqrt{\frac{4}{3}}=\frac{4 \sqrt{4}}{3 \sqrt{3}}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A mass of $20\ kg$ is hanging with support of two strings of same linear mass density. Now pulses are generated in both strings at same time near the joint at mass. Ratio of time, taken by a pulse travel through string $1$ to that taken by pulse on string $2$ is

A$\frac{4}{3}$
B$\frac{{\sqrt 4 }}{{\sqrt 3 }}$
C$\frac{{4\sqrt 4 }}{{3\sqrt 3 }}$
D$\frac{{3\sqrt 4 }}{{4\sqrt 3 }}$

Diffcult

STD 11 Science
NEET
STD 11 - 14. waves and sound
Physics

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