Answer:
To solve these equations using the Antoine equation, we can rearrange it to find the missing variable.
a) Given x1 = 0.33 and T = 100°C, we need to find y1 and P.
For Benzene:
A = 13.8594
B = 2773.78
C = 220.07
Using the Antoine equation for Benzene:
P(sat)/KPa = A - (B / (T + C))
Plugging in the values:
P(sat) / KPa = 13.8594 - (2773.78 / (100 + 220.07))
Now, we can solve for P(sat).
P(sat) = (13.8594 - (2773.78 / 320.07)) * 120 (since P is given as 120 KPa)
Next, we can calculate y1 using the equation:
y1 = x1 * P(sat)
Plugging in the values:
y1 = 0.33 * P(sat)
b) Given y1 = 0.33 and T = 100°C, we need to find x1 and P.
The process is similar to part a, but we rearrange the equation to find x1:
x1 = y1 / P(sat)
c) Given x1 = 0.33 and P = 120 KPa, we need to find y1 and T.
Again, we rearrange the equation to solve for the missing variable:
P(sat) = A - (B / (T + C))
Then we can use the following equation to find y1:
y1 = x1 * P(sat)
These equations can be used to solve for the missing variables by substituting the given values and calculating accordingly.
Step-by-step explanation: