The question should be worded "Complete combustion of" or its usually implied that the combustion goes to completion and that all the reactants are turned into products.
Stoichiometrically you must find what ratios (how many moles of each reactant is needed) to achieve this complete combustion, that is, no reactants are left unburned/unreacted.
Thats already provided in the starting reaction equation, but it is usually simple to work it out.
Usually a question like this sais, Ethane is burned in "excess" oxygen, this implies that you have as much oxygen as you need. The total amount of Carbon and Hydrogen after the reaction must be balenced with the amount before the reaction, you can't get matter from nowhere.
C2H6(g)
2x Carbon which when burned becomes Carbon Dioxide (CO2) requiring 2 O atoms ( or 1 O2 molecule, oxygen is naturally diatomic and found as paired Oxygen )
6x hydrogen which when burned becomes Water (H2O) requiring another Oxygen atom for every 2 Hydrogen.
this is written:
C2H6 + ?O2 -> 2CO2 + 3H2O
you can see that for it to balance you require 3.5 oxygen molecules to every 1 Ethane molecule, or 7 mol oxygen to 2 mol of Ethane.
When considering the energy involved in the reaction, you must take into account these quantities of reactants. The more you burn, the more heat you get out.
How do I figure out how many mols to multiply for each product and reactant? I've already been given the other part of the equation.
You have already done this:
..
HCO2(g) = -393.5 kJ/mol x 4 mol = -1574 kJ
..etc
You multiplied it by the 4 moles you used in the reaction.
The overall energy transfer in the reaction is given by the dH of Products - dH of Reactants.
-3024.8 - (-169.4) = -3024.8 + 169.4 = -12855.4 kJ
But remember that you used 2 moles of C2H6, and therefor need to divide by 2.
-2855.4 kJ / 2 mol = -1427.9 kJ/mol
You can then say that the Hreaction for the combustion of Ethane in Oxygen is -1427.9 kJ/mol.
I hope i didnt confuse :s
:D
