The length of metallic wire is ell_{1} when tension in it is T _{1}. It is ell_{2} when the tension is T

Q: The length of metallic wire is $\ell_{1}$ when tension in it is $T _{1}$. It is $\ell_{2}$ when the tension is $T _{2}$. The original length of the wire will be ...... .

c Assuming Hooke's law to be valid. $T \propto(\Delta \ell)$ $T = k (\Delta \ell)$ Let, $\ell_{0}=$ natural length (original length) $\Rightarrow T = k \left(\ell-\ell_{0}\right)$ so, $T _{1}= k \left(\ell_{1}-\ell_{0}\right)$ And $T _{2}= k \left(\ell_{2}-\ell_{0}\right)$ $\Rightarrow \frac{ T _{1}}{ T _{2}}=\frac{\ell_{1}-\ell_{0}}{\ell_{2}-\ell_{0}}$ $\Rightarrow \ell_{0}=\frac{ T _{2} \ell_{1}- T _{1} \ell_{2}}{ T _{2}- T _{1}}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

The length of metallic wire is $\ell_{1}$ when tension in it is $T _{1}$. It is $\ell_{2}$ when the tension is $T _{2}$. The original length of the wire will be ...... .

A$\frac{\ell_{1}+\ell_{2}}{2}$
B$\frac{ T _{2} \ell_{1}+ T _{1} \ell_{2}}{ T _{1}+ T _{2}}$
C$\frac{ T _{2} \ell_{1}- T _{1} \ell_{2}}{ T _{2}- T _{1}}$
D$\frac{ T _{1} \ell_{1}- T _{2} \ell_{2}}{ T _{2}- T _{1}}$

JEE MAIN 2021,AIIMS 2015, Diffcult

STD 11 Science
NEET
STD 11- 8. mechanical properties of solids
Physics

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