ideal-gas specific heats of various common gases function of temperature
Mostra commenti meno recenti
I know that the static pressure specific heat of air, an ideal gas, is 1.005, but in the one I made, it comes out to be 1.0002. What went wrong?
clc; clear all; close all;
M = 28.96;
T = 273.15;
a=28.11; b=0.1967E-2; c=0.4802E-5; d=-1.966E-9;
dcp=(a+(b.*T)+(c.*(T.^2))+(d.*(T.^3)));
cp = dcp./M;
disp(cp);
4 Commenti
Dyuman Joshi
il 2 Apr 2024
Modificato: Dyuman Joshi
il 2 Apr 2024
There's a term missing in the polynomial expansion - 
재훈
il 2 Apr 2024
Dyuman Joshi
il 3 Apr 2024
Modificato: Dyuman Joshi
il 3 Apr 2024
Unfortunately, NIST has not published any data regarding Shomate polynomials of Air (If I had to guess why - I would say it is probably because air is a mixture of different elements and compounds, thus it woud be difficult to obtain data for it).
I could only find the values for N2, O2, H2, H2O and CH4.
재훈
il 12 Apr 2024
Risposta accettata
M = 28.9; % assune
T = 273.15;
a=28.11; b=0.1967E-2; c=0.4802E-5; d=-1.966E-9;
dcp=(a+(b.*T)+(c.*(T.^2))-(d.*(T.^3)));
%changge in sign here
cp = dcp./M;
disp(cp);
2 Commenti
재훈
il 2 Apr 2024
Dyuman Joshi
il 21 Apr 2024
Although @Angelo Yeo has accepted this answer, I do not think this is a right approach to solving this problem.
Più risposte (0)
Categorie
Scopri di più su Time Series Events in Centro assistenza e File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
