Young's modulus of rubber is {10^4},N/{m^2} and area of cross-section is 2,c{m^2}. If force of 2 times {10^5} dynes is applied along its length, then

Q: Young's modulus of rubber is ${10^4}\,N/{m^2}$ and area of cross-section is $2\,c{m^2}$. If force of $2 \times {10^5}$ dynes is applied along its length, then its initial length $l$ becomes

c (c) $Y = {10^4}N/{m^2},A = 2 \times {10^{ - 4}}{m^2},F = 2 \times {10^5}dyne = 2N$ $l = \frac{{FL}}{{AY}} = \frac{{2 \times L}}{{2 \times {{10}^{ - 4}} \times {{10}^4}}} = L$ Final length $=$ initial length $+$ increment $= 2L$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

Young's modulus of rubber is ${10^4}\,N/{m^2}$ and area of cross-section is $2\,c{m^2}$. If force of $2 \times {10^5}$ dynes is applied along its length, then its initial length $l$ becomes

A$3L$
B$4L$
C$2L$
D
None of the above

Medium

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

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