A steel ring of radius r and cross-section area ‘A’ is fitted on to a wooden disc of radius R(R

Q: A steel ring of radius $r$ and cross-section area $‘A’$ is fitted on to a wooden disc of radius $R(R > r)$. If Young's modulus be $E,$ then the force with which the steel ring is expanded is

b (b) Initial length (circumference) of the ring $= 2$$\pi$$r$ Final length (circumference) of the ring $= 2$$\pi$$R $ Change in length $= 2$$\pi$$R -2$$\pi$$r.$ ${\rm{strain}} = \frac{{{\rm{change in length}}}}{{{\rm{original length}}}}$$ = \frac{{2\pi (R - r)}}{{2\pi r}}$$ = \frac{{R - r}}{r}$ Now Young's modulus $E = \frac{{F/A}}{{l/L}} = \frac{{F/A}}{{(R - r)/r}}$ $\Rightarrow $ $F = AE\left( {\frac{{R - r}}{r}} \right)$

SECTION - A [PHYSICS MCQ]

GSEB - English Medium

A steel ring of radius $r$ and cross-section area $‘A’$ is fitted on to a wooden disc of radius $R(R > r)$. If Young's modulus be $E,$ then the force with which the steel ring is expanded is

A$AE\frac{R}{r}$
B$AE\left( {\frac{{R - r}}{r}} \right)$
C$\frac{E}{A}\left( {\frac{{R - r}}{A}} \right)$
D$\frac{{Er}}{{AR}}$

Diffcult

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

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