A force of `10^6(N)/(m^2)` is required for breaking material, If the density is `3xx10^3kgm^-3` then what should be the maximum length which can be hanged so that it is the point of breaking by its own weight?

A stress of 10^(6) N//m^(2) is required for breaking a material. If the density of the material is 3 xx 10^(3) Kg//m^(3) , then what should be the minimum length of the wire made of the same material so that it breaks by its own weight (g = 10m//s^(2))

A stress of 10^(6) N//m^(2) is required for breaking a material. If the density of the material is 3 xx 10^(3) Kg//m^(3) , then what should be the minimum length of the wire made of the same material so that it breaks by its own weight (g = 10m//s^(2))

A force of 10^6 N.m^-2 is required for breaking a material. IF the density of the material is 3 times 10^3 kg.m^-3 , then what should be the length of the wire made of this material , so that it breaks due its own weight? [ g=9.8 m.s^-2 ]

A stress of 10^(6) Nm^(-2) is required for breaking a material. If the density of the material is 3 xx 10^(3) kg m^(-3) ., then what should be the length of the wire made of this material, so that it breakes under its own weight?

A stress of 10^7 N m^-2 is required to break a material of density 4 xx 10^4 kg m^-3 . Calculate the length of a wire of this material, which can break under its own weight.

A force of 6 xx 10^(6) Nm^(-2) required for breaking a material. The denisty rho of the material is 3 xx 10^(3) kg m^(-3) . If the wire is to break under its own weight, then the length of the wire made of that material should be (Given, g = 10 ms^(-2) )

For steel the breaking stressis 6xx10^(6)N//m^(2) and the density is 8xx10^(3)kg//m^(3) . The maximum length of steel wire, which can be suspended witout breaking under its own weight is [g=10m//s^(2)]