Steel ruptures when a shear of 3 .5 times 10^8,,N,m^{-2} is applied. The force needed to punch a 1,cm diameter hole in a steel sheet

Q: Steel ruptures when a shear of $3 .5 \times 10^8\,\,N\,m^{-2}$ is applied. The force needed to punch a $1\,cm$ diameter hole in a steel sheet $0.3\,cm$ thick is nearly

c Shearing strain is created along the side surface of the punched disk. Note that the forces exerted on the disk are exerted along the circum ference of the disk, and the total force exerted on its center only. Letus assume that the shearing stress along the side surface of the disk is uniform, then $F > \int\limits_{Surface} {d{F_{\max }} = \int\limits_{surface} {{\sigma _{\max }}dA = {\sigma _{\max }}} \int\limits_{surface} {dA} } $ $ = \int {{\sigma _{\max }}} .A = {\sigma _{\max }}.2\pi \left( {\frac{D}{2}} \right)h$ $ = 3.5 \times {10^8} \times \left( {\frac{1}{2} \times {{10}^{ - 2}}} \right) \times 0.3 \times {10^{ - 2}} \times 2\pi $ $ = 3.297 \times {10^4} = 3.3 \times {10^4}N$

SECTION - A [PHYSICS MCQ]

GSEB - English Medium

Steel ruptures when a shear of $3 .5 \times 10^8\,\,N\,m^{-2}$ is applied. The force needed to punch a $1\,cm$ diameter hole in a steel sheet $0.3\,cm$ thick is nearly

A$1.4\,\times 10^4\,N$
B$2.7\,\times 10^4\,N$
C$3.3\,\times 10^4\,N$
D$1.1\,\times 10^4\,N$

JEE MAIN 2014, Diffcult

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

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