To break a wire a force of `10^(6) N//m^(2)` is required. If the density of the material is `3 xx 10^(3) kg//m^(3)`, then the length of the wire which will break by its own weight will be

A substance breaks down by a stress of 10^(6)N//m^(2). If the density of the material of the wire is 3xx10^(3) kg//m^(3), then the length of the wire of that substance which will break under its own weight, when suspended vertically, is its own weight, when suspended vertically, is

A substance breaks down by a stress of 10^(6)N//m^(2). If the density of the material of the wire is 3xx10^(3) kg//m^(3), then the length of the wire of that substance which will break under its own weight, when suspended vertically, is its own weight, when suspended vertically, is

A substance breaks down by a stress of 10^(6) Nm^(-2) . If the density of the material of the wire is 3 xx 10^(3) kgm^(-3) . Then the length of the wire of the substance which will break under its own weight when suspended vertically is

A substance breaks down by a stress of 10 N//m . If the density of the material of the wire is 3 xx 10 kg//m , then the length of the wire of the substance which will break under its own weight when suspended vertically is

A substance breaks down under a stress of 10^(5) Pa . If the density of the wire is 2 xx 10^(3) kg//m^(3) , find the minimum length of the wire which will break under its own weight (g= 10 ms^(-12)) .

A substance breaks down under a stress of 10^(5) Pa . If the density of the wire is 2 xx 10^(3) kg//m^(3) , find the minimum length of the wire which will break under its own weight (g= 10 ms^(-12)) .