Balancing a complex Chemical equation

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The discussion focuses on balancing the chemical equation C6H5OCl + NO3- --> N2 + Cl- + CO2, with participants attempting to achieve balance through various methods. Initial attempts included balancing carbon and adjusting the number of nitrate ions and hydrogen ions to achieve equilibrium. The challenge of balancing charges on both sides is highlighted, indicating a common difficulty in redox reactions. Suggestions for alternative approaches, such as using half-reactions or oxidation numbers, are provided to aid in the balancing process. The conversation also touches on the role of nitric acid and its dissociation in contributing to the reaction components.
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Homework Statement


Balance the following Chemistry equation, you are allowed to add H{+} and H2O where needed
Given
C6H5OCl + NO3- --> N2 + Cl- + CO2

2. The attempt at a solution
Balance the carbon first:
C6H5OCl + NO3- --> N2 + Cl- + 6CO2

Increase Oxygen O in NO3{-} to compensate; also increase N on RHS
C6H5OCl + 4NO3- --> 2N2 + Cl- + 6CO2

Bring out the H{+} and O{2-} on RHS
C6H5OCl + 4NO3- --> 2N2 + Cl- + 6CO2 + H2O + 3H+

Multiply both sides by 2
2C6H5OCl + 8NO3- --> 4N2 + 2Cl- + 12CO2 + 2H2O + 6H+

Compensate for 6H{+} on RHS by increasing NO3 by 1 to form H2O on RHS
2C6H5OCl + 9NO3- --> 4N2 + 2Cl- + 12CO2 + 5H2O + N3-

At this point I would assume that H{+} Is required on the LHS to give N2 and H2O on RHS
2C6H5OCl + 10NO3- + 2H+ --> 5N2 + 2Cl- + 12CO2 + 6H2O

Which is looking pretty good so far-- except the charges on either side are not balanced. And this would be the point where I am stuck. Was there supposed to be a different approach to this? I appreciate your time. Thank you.
 
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This is a redox reaction and these are usually difficult to balance by inspection. Try either one of the redox methods (half reactions or oxidation numbers), or use algebraic approach. All these are described here: balancing and stoichiometry.
 
Perhaps the NO3 radical comes from an acid which is added to the other organic compound.
 
Excellent, I think this would be very helpful. Thank you very much.

@SteamKing: HNO3 could very well be the said acid but I gather that it isn't of much interest at the moment?
 
NO3- is not a radical, just an ion, product of the nitric acid dissociation.
 
And maybe some of the H+ ions come from said nitric acid dissociation?
 
Yes. And it is also possible to balance the reaction using HNO3 as a reactant and HCl as a product.
 

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