Total vapor pressure can be calculated using partial vapor pressures and mole fraction as follows:
[tex]P=X_{A}P_{A}+X_{B}P_{B}[/tex]
Here, [tex]X_{A}[/tex] is mole fraction of A, [tex]X_{B}[/tex] is mole fraction of B, [tex]P_{A}[/tex] is partial pressure of A and [tex]P_{B}[/tex] is partial pressure of B.
The mole fraction of A and B are related to each other as follows:
[tex]X_{A}+X_{B}=1[/tex]
In this problem, A is hexane and B is octane, mole fraction of hexane is given 0.580 thus, mole fraction of octane can be calculated as follows:
[tex]X_{octane}=1-X_{hexane}=1-0.58=0.42[/tex]
Partial pressure of hexane and octane is given 183 mmHg and 59.2 mmHg respectively.
Now, vapor pressure can be calculated as follows:
[tex]P=X_{hexane}P_{hexane}+X_{octane}P_{octane}[/tex]
Putting the values,
[tex]P=(0.580)(183 mmHg)+(0.420)(59.2 mmHg)=131 mmHg[/tex]
Therefore, total vapor pressure over the solution of hexane and octane is 131 mmHg.
