Finding n
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Finding n
I'm still confused on how to find the number of moles in the formula for Gibbs. Is it the number of electrons that you gain/lose from both the half reactions??
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Re: Finding n
n is the moles of e- transferred in the overall reaction. Which is equivalent to the overall charges of the reactants and the products in the balanced equation. The example that helps is on Pg. 52 of the course reader. Hopes this helps.
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Re: Finding n
n is just the amount of electrons transferred in the reaction. Usually you need to find the half reactions first.
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Re: Finding n
According to the textbook, n is the number of electrons transferred in moles. Commonly we can first list the half-rxns to identify how many moles of electrons are transferred.
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Re: Finding n
N is the number of electrons transferred in the reaction. To find this value, first balance the reaction so the electrons gained match the electrons lost. This is the value you should use for n.
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Re: Finding n
n is the number of electrons transferred in the half reactions, but they need to be balanced first.
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Re: Finding n
An example might be:
if the oxidation half reaction produces 2 mol of e-
and reduction half reaction produces 3 mol of e-
you’d have to multiply the oxidation half rxn by a factor of 3 and the reduction half rxn by a factor of 2 because the moles of e- must cancel
in this case 2mol e- * 3 = 6mol e-
and 3mol e- * 2 = 6mol e-
n=6 mol e-
if the oxidation half reaction produces 2 mol of e-
and reduction half reaction produces 3 mol of e-
you’d have to multiply the oxidation half rxn by a factor of 3 and the reduction half rxn by a factor of 2 because the moles of e- must cancel
in this case 2mol e- * 3 = 6mol e-
and 3mol e- * 2 = 6mol e-
n=6 mol e-
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Re: Finding n
To accurately find n, you must first balance the equation with the correct amount of moles, water, and hydrogen molecules so electrons can cancel out.
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Re: Finding n
To find n, first balance the half reactions. Then multiple each half reaction with a coefficient that will allow you to cross out the moles of electrons on both half reactions. (i.e if one half reaction has 1 electron on the reactant side and the other half reaction has 4 electrons on the product side, then multiple the first half reaction by 4). n will be equal to the moles of electrons that were crossed out (in the last example, n=4)
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Re: Finding n
Justin Folk 3I wrote:How do we know it's a mole of reaction?
What do you mean?? It's the moles of electrons in the balanced reaction.
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Re: Finding n
If a half reaction is multiplied by 2 to get an equal number of moles of electrons in both half reactions to be able to cancel each other out, then yes n=2.
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Re: Finding n
You're going to need to split up the reaction into its half reactions. And then you're going to balance it so the electrons cancel and use that final number of electrons as the n.
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