[" 20) "," 16.When a wire of length "10m...

[" 20) "," 16.When a wire of length "10m" is subjected to a force "],[Y," of "100N" along its length,the lateral strain "],[Nm^(-2)" of "100ced" is "0.01times10^(-3)m" .The Poisson's ratio "],[" order to "],[" ovire "],[" nder the "(1)1.6times10^(8)Nm^(-2)],[[" (in "mm)," (3) "1.25times10^(11)Nm^(-2)," (4) "16times10^(9)Nm^(-2)]]

Similar Questions

Explore conceptually related problems

When a wire of length 10m is subjected to a force of 100N along its length, the lateral strain produced is 0.01xx10^(-3) . The poisson's ratio was found to be 0.4 . If area of cross section of wire is 0.25 m^(2) , its young's modulus is

When a wire of length 10 m is subjected to a force of 100 N along its length, the lateral strain produced is 0.01 xx 10^3 m . The Poisson's ratio was found to be 0.4. If the area of cross-section of wire is 0.025 m^2, its Young's modulus is

When a wire of length 10 m is subjected to a force of 100 N along its length, the lateral strain produced is 0.01 xx 10^(-3) . The Poisson's ratio was found to be 0.4 . If the area of cross-section of wire is 0.025 m^2 , its Young's modulus is

A steel rod of length 1 m and radius 10 mm is stretched by a force 100 kN along its length. The stress produced in the rod is Y_(Steel)=2xx10^(11)Nm^-2

A steel rod of length 1m and radius 10 mm is stretched by a force 100 KN along its length. The stress produced in the rod Y_("Steel")=2xx10^(11)" N m"^(-2)

When a wire is subjected to a force along its length, its length increases by 0.4% andits radius decreaes by 0.2%. Then, the poisson's ratio of the material of the wire is

A wire of length 1m is stretched by a force of 10N. The area of cross-section of the wire is 2 × 10^(–6) m^(2) and Y is 2 xx 10^(11) N//m^(2) . Increase in length of the wire will be -

Calculate the Poisson's ratio for steel. Given that Young's modulus is 2 xx 10^(11) Nm^(-2) and rigidity modulus is 8 xx 10^(10) Nm^(-2) .

Similar Questions

Recommended Questions