The Table below presents data of vapor pressure versus temperature for benzene. Some design calculations require these data to be accuately correlated by various algebraic expressions, which provide P (mmHg) as a function of T (°C). Table A.1 Vapor Pressure of Benzene (Perry') Temperature, T (°C) -36.7 -19.6 -11.5 +7,6 15.4 26.1 42.2 60.6 80.1 Pressure, P (mmHg) 20 40 60 100 200 400 760 The Clausius-Clapeyron equation, which is useful for the correlation of vapor pressure data, is given by log10 (P) = A=7+273.15 Fit the data with above equation to obtain the coefficients A and B. need help to solve using MATLAB codes. AND please provide Screenshots too!

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The Table below presents data of vapor pressure versus temperature for benzene.
Some design calculations require these data to be accuately correlated by various
algebraic expressions, which provide P (mmHg) as a function of T (°C).
Table A.1 Vapor Pressure of Benzene (Perry')
Temperature, T
(°C)
-36.7
-19.6
-11.5
-2.6
+7.6
15.4
26.1
42.2
60.6
80.1
Pressure, P
(mmHg)
1
5
10
20
40
60
100
200
400
760
The Clausius-Clapeyron equation, which is useful for the correlation of vapor pressure
data, is given by
B
log10 (P) = A-7+273.15
Fit the data with above equation to obtain the coefficients A and B.
I need help to solve using MATLAB codes. AND please provide Screenshots too!
Transcribed Image Text:The Table below presents data of vapor pressure versus temperature for benzene. Some design calculations require these data to be accuately correlated by various algebraic expressions, which provide P (mmHg) as a function of T (°C). Table A.1 Vapor Pressure of Benzene (Perry') Temperature, T (°C) -36.7 -19.6 -11.5 -2.6 +7.6 15.4 26.1 42.2 60.6 80.1 Pressure, P (mmHg) 1 5 10 20 40 60 100 200 400 760 The Clausius-Clapeyron equation, which is useful for the correlation of vapor pressure data, is given by B log10 (P) = A-7+273.15 Fit the data with above equation to obtain the coefficients A and B. I need help to solve using MATLAB codes. AND please provide Screenshots too!
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