Half-Rxn Method: Answers to My Queries

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The discussion focuses on the half-reaction method for balancing redox reactions, specifically the transformation of HNO2 to NO3(-1). To balance the equation, one water molecule is added to the reactants to account for the difference in oxygen atoms, resulting in HNO2 + H2O. Additionally, three hydrogen ions are added to the products side to balance the hydrogen atoms. Finally, two electrons are included to equalize the charge on both sides of the equation. This method emphasizes balancing oxygens first, followed by hydrogens and charge.
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I'm just learning the half-rxn method, so I really hope there's somebody else on this forum who's familiar with it. If anyone needs a refresher, go to the link at the bottom of the post.

One of the "half-rxns" I'm doing is this:

HNO2 --> NO3(-1)

So, I'm confused because
1) There's oxygens on both sides, so I'm not sure if I should still add H2O to compensate for them.
2) What do I do about the hydrogen on the left?

http://www.sciencemadness.org/talk/v...php?tid=12384
 
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Hello there,

Although there are oxygens on both sides of the equation, there are two on the left and three on the right. Therefore, you need to add one water molecule on the left for compensation.

HNO2 + H2O -> NO3-

Since you have three hydrogen atoms on the reactants' side, add three to the products' side. For balancing half-reactions using this method (Half-Reaction method), it is customary to equilibrate the oxygens first before the hydrogens.

HNO2 + H2O -> NO3- + 3H+

Since there is an excess charge of -2 on the right side, add 2 electrons to ensure that both sides of the equation have the same amount of charge (that is, 0, in this example).

HNO2 + H2O -> NO3- + 3H+ + 2e-

There you are!
 
Thread 'Confusion regarding a chemical kinetics problem'

Thread 'Confusion regarding a chemical kinetics problem'

TL;DR Summary: cannot find out error in solution proposed. [![question with rate laws][1]][1] Now the rate law for the reaction (i.e reaction rate) can be written as: $$ R= k[N_2O_5] $$ my main question is, WHAT is this reaction equal to? what I mean here is, whether $$k[N_2O_5]= -d[N_2O_5]/dt$$ or is it $$k[N_2O_5]= -1/2 \frac{d}{dt} [N_2O_5] $$ ? The latter seems to be more apt, as the reaction rate must be -1/2 (disappearance rate of N2O5), which adheres to the stoichiometry of the...
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