A copper wire of length 4.0m and area of cross-section 1.2,c{m^2} is stretched with a force of 4.8 times {10^3} N. If Young’s modulus for

Q: A copper wire of length $4.0m$ and area of cross-section $1.2\,c{m^2}$ is stretched with a force of $4.8 \times {10^3}$ $N.$ If Young’s modulus for copper is $1.2 \times {10^{11}}\,N/{m^2},$ the increase in the length of the wire will be

a (a) $l = \frac{{FL}}{{AY}} = \frac{{4.8 \times {{10}^3} \times 4}}{{1.2 \times {{10}^{ - 4}} \times 1.2 \times {{10}^{11}}}} = 1.33\;mm$

SECTION - A [PHYSICS MCQ]

GSEB - English Medium

A copper wire of length $4.0m$ and area of cross-section $1.2\,c{m^2}$ is stretched with a force of $4.8 \times {10^3}$ $N.$ If Young’s modulus for copper is $1.2 \times {10^{11}}\,N/{m^2},$ the increase in the length of the wire will be

A$1.33 \,mm$
B$1.33 \,cm$
C$2.66\, mm$
D$2.66\, cm$

Easy

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

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