369883 A \(100\;m\) long wire having cross-section area \(6.25 \times {10^{ - 4}}\;{m^2}\) and Young's modulus is \({10^{10}}N{m^{ - 2}}\) is subjected to a load of \(250\;N\), then the elongation in the wire will be

369884 Four identical hollow cylindrical columns of steel support a big structure of mass \(50,000\;kg\) The inner and outer radii of each column are \(30\;cm\) and \(40\;cm\) respectively, Assuming the load distribution to be uniform calculate the compressional strain of each column, the Young's modulus of steel is \(2 \times {10^{11}}\;Pa\).

369885 Graph between the applied force \(\& {\text{ }}\) the change in length of a wire with in elastic limit is a

369886 The Young's modulus of air is

369883 A \(100\;m\) long wire having cross-section area \(6.25 \times {10^{ - 4}}\;{m^2}\) and Young's modulus is \({10^{10}}N{m^{ - 2}}\) is subjected to a load of \(250\;N\), then the elongation in the wire will be

369884 Four identical hollow cylindrical columns of steel support a big structure of mass \(50,000\;kg\) The inner and outer radii of each column are \(30\;cm\) and \(40\;cm\) respectively, Assuming the load distribution to be uniform calculate the compressional strain of each column, the Young's modulus of steel is \(2 \times {10^{11}}\;Pa\).

369885 Graph between the applied force \(\& {\text{ }}\) the change in length of a wire with in elastic limit is a

369886 The Young's modulus of air is

369883 A \(100\;m\) long wire having cross-section area \(6.25 \times {10^{ - 4}}\;{m^2}\) and Young's modulus is \({10^{10}}N{m^{ - 2}}\) is subjected to a load of \(250\;N\), then the elongation in the wire will be

369884 Four identical hollow cylindrical columns of steel support a big structure of mass \(50,000\;kg\) The inner and outer radii of each column are \(30\;cm\) and \(40\;cm\) respectively, Assuming the load distribution to be uniform calculate the compressional strain of each column, the Young's modulus of steel is \(2 \times {10^{11}}\;Pa\).

369885 Graph between the applied force \(\& {\text{ }}\) the change in length of a wire with in elastic limit is a

369886 The Young's modulus of air is

369883 A \(100\;m\) long wire having cross-section area \(6.25 \times {10^{ - 4}}\;{m^2}\) and Young's modulus is \({10^{10}}N{m^{ - 2}}\) is subjected to a load of \(250\;N\), then the elongation in the wire will be

369884 Four identical hollow cylindrical columns of steel support a big structure of mass \(50,000\;kg\) The inner and outer radii of each column are \(30\;cm\) and \(40\;cm\) respectively, Assuming the load distribution to be uniform calculate the compressional strain of each column, the Young's modulus of steel is \(2 \times {10^{11}}\;Pa\).

369885 Graph between the applied force \(\& {\text{ }}\) the change in length of a wire with in elastic limit is a

369886 The Young's modulus of air is