The two wires shown in figure are made o...

The two wires shown in figure are made of the same material which has a breaking stress of `8xx10^8Nm^-2`. The area of cross section of the upper wire is `0.006 cm^2` and that of the lower wire is `0.003 cm^2`. The mass `m_1=10 kg, m_2=20kg` and teh hanger is light. a. Fidn the maximum load that casn be put on the hanger without breaking a wire. Which wire will break first if the load is increased? b. Repeat the above part `m_1=10 kg and m_2=36kg`.

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The correct Answer is:

`2kg`

Let load put on the hanger be, then stress in lower wire
`S_(1)=(m_(1)g+F)/(0.003x10^(-4))`
Let `S_(1)=8xx10^(8)N//m^(2)`, then
`impliesF=140N`
Let stress developed in upper wire be `S_(2)` then
`S_(2)=[(m_(1)+m_(2))g+F]/(0.006xx10^(-4))`
Let `S_(2)=8xx10^(8)N//m^(2)`
`implies F-=180N`
We have to select the lower vaue of `F`. Hence, maximum load that can be suspended is `140//g=14kg`
b. `S_(1)=(m_(1)g+F)/(0.003xx10^(-4))=8xx10^(8)`
`implies 10x10+F=240impliesF=140N`
`S_(2)=[(m_(1)+m_(2))g+F]//(0.006xx10^(-4))=8xx10^(8)`
`implies 46g+F=-480impliesF=20N`
Hence the maximum load that can be suspended is `20//g=2kg`

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