The relationship between pressure and solubility of the gas is given by Henry's law as:
[tex]S_g = kP_g[/tex]
where,
[tex]S_g[/tex] is the solubility of the gas.
[tex]k[/tex] is proportionality constant i.e. Henry's constant.
[tex]P_g[/tex] is pressure of the gas.
[tex]k = 5.6 bar/mol/kg[/tex] (given)
[tex]P_g = 0.13 bar[/tex] (given)
Substituting the values,
[tex]S_g = 5.6 bar/mol/kg\times 0.13 bar = 0.728 mole/kg[/tex]
To convert [tex]mole/kg[/tex] to [tex]g/kg[/tex]:
Molar mass of benzene, [tex]C_6H_6[/tex] = [tex]6\times 12+6\times 1 = 78 g/mol[/tex]
[tex]0.728\times 78 = 56.784 g/kg[/tex]
Now for converting into [tex]ppm[/tex]:
Since, [tex]1 ppm = 0.001 g/kg[/tex]
So, [tex]56.784\times 1000 = 56784 ppm[/tex].
Hence, the solubility of benzene in water at [tex]25^{o} C[/tex] in [tex]ppm[/tex] is [tex]56784 ppm[/tex].
