369750 Practically minimum and maximum values of poisson's ratio for metal lies between

369751 A meterial has poisson's ratio 0.5. If a uniform rod suffers longitudinal strain of \(2 \times 10^{-3}\) then the percentage increase in its volume is

369752 A die is designed to punch holes with a radius of \(R=\) \(1.00 \times 10^{-2} {~m}\) in a metal sheet of thickness \(t=3.0 \times 10^{-3} {~m}\) thick, as the drawing illustrates. To punch through the sheet, the die must exert a shearing stress of \(\sigma=3.5 \times 10^{8} {~Pa}\). What force \(\vec{F}\) must be applied to the die?

369753 A metal cube of side \(10\;\,cm\) is subjected to a shearing stress of \({10^6}\;\,N/{m^2}\). If the top of the cube is displaced by \(0.05\;{\mkern 1mu} {\text{cm}}\) with respect to its bottom. Calculate the rigidity modulus in \(N/{m^2}\)

369750 Practically minimum and maximum values of poisson's ratio for metal lies between

369751 A meterial has poisson's ratio 0.5. If a uniform rod suffers longitudinal strain of \(2 \times 10^{-3}\) then the percentage increase in its volume is

369752 A die is designed to punch holes with a radius of \(R=\) \(1.00 \times 10^{-2} {~m}\) in a metal sheet of thickness \(t=3.0 \times 10^{-3} {~m}\) thick, as the drawing illustrates. To punch through the sheet, the die must exert a shearing stress of \(\sigma=3.5 \times 10^{8} {~Pa}\). What force \(\vec{F}\) must be applied to the die?

369753 A metal cube of side \(10\;\,cm\) is subjected to a shearing stress of \({10^6}\;\,N/{m^2}\). If the top of the cube is displaced by \(0.05\;{\mkern 1mu} {\text{cm}}\) with respect to its bottom. Calculate the rigidity modulus in \(N/{m^2}\)

369750 Practically minimum and maximum values of poisson's ratio for metal lies between

369751 A meterial has poisson's ratio 0.5. If a uniform rod suffers longitudinal strain of \(2 \times 10^{-3}\) then the percentage increase in its volume is

369752 A die is designed to punch holes with a radius of \(R=\) \(1.00 \times 10^{-2} {~m}\) in a metal sheet of thickness \(t=3.0 \times 10^{-3} {~m}\) thick, as the drawing illustrates. To punch through the sheet, the die must exert a shearing stress of \(\sigma=3.5 \times 10^{8} {~Pa}\). What force \(\vec{F}\) must be applied to the die?

369753 A metal cube of side \(10\;\,cm\) is subjected to a shearing stress of \({10^6}\;\,N/{m^2}\). If the top of the cube is displaced by \(0.05\;{\mkern 1mu} {\text{cm}}\) with respect to its bottom. Calculate the rigidity modulus in \(N/{m^2}\)

369750 Practically minimum and maximum values of poisson's ratio for metal lies between

369751 A meterial has poisson's ratio 0.5. If a uniform rod suffers longitudinal strain of \(2 \times 10^{-3}\) then the percentage increase in its volume is

369752 A die is designed to punch holes with a radius of \(R=\) \(1.00 \times 10^{-2} {~m}\) in a metal sheet of thickness \(t=3.0 \times 10^{-3} {~m}\) thick, as the drawing illustrates. To punch through the sheet, the die must exert a shearing stress of \(\sigma=3.5 \times 10^{8} {~Pa}\). What force \(\vec{F}\) must be applied to the die?

369753 A metal cube of side \(10\;\,cm\) is subjected to a shearing stress of \({10^6}\;\,N/{m^2}\). If the top of the cube is displaced by \(0.05\;{\mkern 1mu} {\text{cm}}\) with respect to its bottom. Calculate the rigidity modulus in \(N/{m^2}\)