A rubber pipe of density `1.5 xx 10^(3) N//m^(2)` and Young's modulus `5 xx 10^(6) N//m^(2)` is suspended from the roof. The length of the pipe is 8m. What will be the change in length due to its own weight.

A rope of rubber of density 1.5xx 10^(3) Kg//m^(3) and Young.s modulus 5 xx 10^(6) N//m^(2) , 8m in length is hung from the ceiling of a room. Then the increase in length due to its own weight is

A thick rope of rubber of density 1.5 xx 10^(3) kg m^(-3) and Young's modulus 5 xx 10^(6) Nm^(-2) , 8 m in length, when hung from ceiling of a room, the increases in length due to its own weight is

A thick rope of density 1.5 xx 10 ^(3) kg m ^(-3) and Young's modulus 5 xx 10 ^(6) Nm ^(-2), 8 m in length when hung from the ceiling of room the increase in its length due to its own weight is .......... (g = 10 ms ^(-2))

For silver Young's modulus is 7.5 xx 10^(10) N//m^(2) and Bulk modulus is 11 xx 10^(10) N//m^(2) . Its poisson's ratio will be

A thick rope of rubber of density 1.5 (kg)/m^3 Young's modulus 5 xx 10^6 N/M^2 and length 8m is hung from the ceiling of a room . The increase in length due to its own weight is

A wire having Young's modulus 1.2xx10^(11) N//m^(2) is subjected to the stress of 2.4xx10^(7) N//m^(2) . If the length of the wire is 10m, the extension produced in it is

For silver, Young's modulus is 7.25 xx 10^(10) N//m^(2) and Bulk modulus is 11 xx 10^(10) N//m^(2) . What is its Poisson's ratio ?