Calculate the maximum nonexpansion work that can be gained from the oxidation of HCl (g) on a per gram basis under standard conditions. Please answer your question (unit kJ/g).
HCl (g) | O2 (g) | Cl2 (g) | H2O (l) | |
∆fHo(kJmol-1) |
-92.31 | 0 | 0 | -285.83 |
So (JK-1mol-1) |
186.91 | 205.14 | 223.07 | 69.91 |
∆fGo (kJmol-1) |
-95.3 | 0 | 0 | -237.15 |
I got until the point where you get kJ/m my answer was -93.1. But, from there I don't know what is the next step to convert to kJ/g. I tried and I got the answer -23.04 but that was wrong.
Please show me step by step, and result.
Thank you.
Calculate the maximum nonexpansion work that can be gained from the oxidation of HCl (g) on...
(3 Points) Calculate the standard Gibbs energy of reaction for the reaction below at 298 K and 596 K. 4 HCl(g) + O2(g) 2Cl2(g) + 2H2O(l) Assume that the heat capacities are constant over the temperature range involved. 02(g) Cl2(g) HCl(g) 4,Hº (kJ mol-4) -92.11 S JK- mol-) 186.91 Comº (K-mol-4) 29.12 AG° (k mol-1) | -95.30 223.07 205.14 9.36 H2O(1) -285.83 69.91 75.29 -237.133 2 33.91
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