Algebraic method to balance redox equations

AI Thread Summary
The discussion focuses on solving redox equations using the algebraic method. A user successfully applied this method to a redox reaction involving iron and chromium but is unsure how to use it for a neutral reaction without superscripts, such as the reaction between NaOH, Cr(OH)3, and NaClO. The response clarifies that when all species are neutral, there's no need to balance charges separately. It suggests that an additional identity can be used to maintain balance, even in neutral equations. The conversation also recommends consulting ChemBuddy's lecture on the algebraic method for further guidance on balancing both charged and uncharged species, emphasizing the importance of proper formatting for chemical equations.
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Hi all,

I'm learning how to solve redox equations. I found the algebraic method to solve equations such as this one:
Fe^{2+} + Cr_{2}O_{7}^{2-} +H^{+}\rightarrow Fe^{3+} + Cr^{3+} + H_{2}0
and i was able to solve it.

What I don't see is how to use that algebraic method to solve an equation without superscripts; since it doesn't allow you to balance the charges, right?
like for example: NaOH + Cr(OH)_{3} + NaClO\rightarrow Na_{2}CrO_{4} +NaCl + H_{2}O

Thanks for your help.
 
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If everything is neutral (on both sides of the reaction) there is no need to separately balance the charge. But you can always write an additional identity

0\times a_1 + 0\times a_2 + ... = 0\times b_1 + 0\times b_2 + ...

(assuming ai are stoichiometric coefficients on the LHS of the equation, and bi are coefficients on the RHS).

Compare ChemBuddy lecture on the algebraic method of reaction equation balancing - it shows how to balance both equations with charged and uncharged species.

Use [noparse] and [/noparse] tags to format the formulas, don't mix normal text with LaTeX, it is not guaranteed to work OK.
 

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