II. IDEAL SOLUTIONS A mixture of hexane (hex) and n-octane (oct) forming an ideal solution contains a mole fraction of hexane as 0.3. At 80°C, the vapor pressures of hexane and n-octane are 1062.7 and...


II. IDEAL SOLUTIONS<br>A mixture of hexane (hex) and n-octane (oct) forming an ideal solution contains a mole<br>fraction of hexane as 0.3. At 80°C, the vapor pressures of hexane and n-octane are 1062.7<br>and 175 mmHg, respectively.<br>i. Calculate the partial pressures of hexane and n-octane above a 80°C solution.<br>ii. Find the total vapor pressure of the solution at 80°C.<br>iii. Calculate the mole fractions of hexane and n-octane in the vapor phase.<br>iv. Draw a representative graph showing pressures (P, Phex, Pocts P hex, P oct) versus xhex,liquid-<br>

Extracted text: II. IDEAL SOLUTIONS A mixture of hexane (hex) and n-octane (oct) forming an ideal solution contains a mole fraction of hexane as 0.3. At 80°C, the vapor pressures of hexane and n-octane are 1062.7 and 175 mmHg, respectively. i. Calculate the partial pressures of hexane and n-octane above a 80°C solution. ii. Find the total vapor pressure of the solution at 80°C. iii. Calculate the mole fractions of hexane and n-octane in the vapor phase. iv. Draw a representative graph showing pressures (P, Phex, Pocts P hex, P oct) versus xhex,liquid-

Jun 07, 2022
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