Half-Cell Potential: Understand What It Means & Why It Matters

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SUMMARY

The discussion centers on the concept of half-cell potential, specifically regarding the Zn/Zn2+ electrode. The half-cell potential is defined as the potential difference between a metallic zinc electrode and the Zn2+ solution during the reduction reaction Zn2+ + 2e- → Zn(s). Participants clarify that the electrode is the solid metal and the solution refers to the Zn2+ ions. The conversation emphasizes the importance of understanding reduction potentials in relation to the standard hydrogen electrode (SHE) and the activity series, which ranks species based on their ability to accept electrons.

PREREQUISITES
  • Understanding of redox reactions and their components
  • Familiarity with standard hydrogen electrode (SHE) as a reference point
  • Knowledge of oxidation numbers versus formal charge
  • Basic principles of electrochemistry, including half-cell reactions
NEXT STEPS
  • Study the Nernst equation and its application in calculating cell potentials
  • Explore the activity series of metals and their electron-accepting abilities
  • Learn about the construction and functioning of galvanic cells
  • Investigate the role of standard reduction potentials in predicting reaction spontaneity
USEFUL FOR

Chemistry students, educators, and professionals in electrochemistry or materials science who seek to deepen their understanding of half-cell potentials and redox reactions.

Itskitty
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Half-cell potential?

According to an online chemistry website ( www.chem1.com)
If the half-cell potential for Zn/Zn+ electrode is defined as the potential difference between a piece of metallic zinc and the solution when the reaction Zn2+ + 2e- -> Zn (s) takes place.

That is E cell = V metal - V solution

What does this means?

Is the metal referring to the electrode and the solution referring to the Zn2+?

If it is so, then why do half cells with higher potential difference undergo reduction more readily than half cells with lower potential difference?

I mean the potential difference is supposed to be associated with positive charges, right?

So if one thing has higher potential, then positive charges would want to move to another thing with fewer amount of positive charges.

That, in reality, means that the e- would flow from Ag+ to Ag.

Which is not the usual case?

Could anyone help me with this?

I understand that in the activity series,
we're comparing the performance of each species to those of Hydrogen, so
the higher the potential, the better electron acceptor it will be.

But what about this potential thingy??

Thanks!
 
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Yes, the solid is the electrode and the Zn2+ is the solution. The reaction you wrote out is a reduction half reaction, and so you would be looking at the reduction potential. This will be positive because the standard hydrogen cell is defined as the zero for these numbers. Basically it's only positive in relation to the SHE, but then again, I'm not exactly sure if this is what you were asking.

Also be careful with using the word charge. We're dealing with oxidation numbers here, not formal charge.
 


Thank you for your reply. :D

That's not my question tho
but i'll think abt it more and post some more questions
may be I'm confusing myself :(
 


Let's break this down; how familiar are you with redox reactions? Are you just starting to learn about them? It seems like you're not looking at the cell as a whole, which consists of an oxidation AND a reduction. The direction in which each half reaction proceeds is relative to the potential

Does your question come from a specific example? If so, it would probably help to post all the information you're looking at, and which parts you don't understand.
 

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