Answer:
Maximum concentration for Pb is only 41%. we get 64.3% which exceeds the maximum concentration. Therefore it is not possible.
Explanation:
let's first determine the mass fraction of the phases as follows
[tex]W_{a}=\frac{m_{a} }{m_{a}+m_{p_{g2}p_{b} } }[/tex]
Given that masses are [tex]m_{a}=7.39kg[/tex] and [tex]m_{p_{g2}p_{b} }=3.81kg[/tex]
Thus, [tex]W_{a} =\frac{7.39}{7.39+3.81}=0.659[/tex]
[tex]W_{M_{g2Pb} } =1-W_{a}=1-0.659=0.341[/tex]
Now determine the concentration
[tex]W_{a}=\frac{C_{0}-C_{a} }{C_{b}-C_{a} }[/tex]
At 81% PB and 70% Pb only point at which [tex]M_{g2Pb}[/tex] exists, we can solve
[tex]0.659=\frac{70-81}{C_{b}-81 }[/tex]
[tex]C_{b}=[/tex]64.3%
Refer text book page no. 326, figure 9.20, from figure we can say maximum concentration for Pb is only 41%. we get 64.3% which exceeds the maximum concentration.
