Understanding the Dissolution of Zinc in a Galvanic Half-Cell

  • Thread starter Thread starter Slava
  • Start date Start date
  • Tags Tags
    Battery
AI Thread Summary
In a galvanic half-cell, zinc dissolves into the solution as zinc ions (Zn2+) due to its tendency to lose electrons during the redox reaction. The movement of electrons away from the zinc electrode is influenced by the attraction to the positively charged copper ions in the solution, which facilitates the ionization of zinc. When zinc atoms lose electrons, they become Zn2+ ions and enter the solution, while the remaining electrons accumulate on the electrode. The reaction can occur without an external solution, but the presence of ions enhances the process. Overall, the dissolution of zinc is driven by the electrochemical interactions between zinc and copper ions in the solution.
Slava
Messages
19
Reaction score
0
In a standard galvanic half-cell when Zinc rode is placed into the Zinc sulphate. What is the reaction which makes zinc to dissolve and fell into the solution. Why do electrons move away from the sides of the electrode? Are they repelled by the solution or by other ZN atoms on the electrode which haven't been ionized yet?
 
Engineering news on Phys.org
From the link which you posted it is said that: In this cell the zinc metal has a tendency to dissolve as ions leaving its electrons on the electrode.

I can't get the order: whether it is Reaction with the solution which causes electrons to fly away from Zn metal, or it is the attraction from the positive electrode which attracts loosely bound Zn electrons and as soon as Zinc start lacking electrons it will become Zn2+ and mix with the solution. If it is the latter case then when the electrodes are not connected will there be an excess of electrons on the negative terminal of the battery

This is what is unclear for me. I understand how the redox reaction works but I can't understand how the half-redox reaction works.

Thank you for your response.
 
The electrodes themselves must be electrically neutral and thus there will be no voltage? Am I right?
 
The electrodes don't have to be electrically neutral, and generally won't be - the webpage gives example reaction relations.
So how do you understand redox reactions working?
 
In redox reaction one atom loses electrons and another atom gains electrons.
Is it possible for a redox reaction to occur just by simply placing atoms of zinc and copper together or we need to have an oxidizing/reducing agents for this to happen?
 
My question is. Will the following reaction happen if there was no solution.
Zn(s) + Cu2+(aq)
doublearrow.gif
Zn2+(aq) + Cu(s)
I suspect there should be some energy given off which will make electrons pop from the Zn nucleus. Is the attraction between the positively charged Copper ion and Zn atom is enough to make them move??
 
From Wikipedia:
metallic zinc at the surface of the zinc electrode is dissolving into the solution
Can you explain what makes them dissolve into the solution? The solution is just a mix of Zn2+ and SO42-. Do Zn atoms react with Zn2+ or S042- ?
 

Similar threads

Voltaic cell + battery in series
Replies
3
Views
2K
Why do electrons move away from the electrode in a galvanic half-cell?
Replies
6
Views
3K
Trigger for a Zn oxidation reaction in a battery Reference
Replies
1
Views
1K
Potential across a battery cell change ion concentrations and electron flow
Replies
4
Views
2K
Galvanic cell - open circuit voltage and EMF
Replies
23
Views
5K
Chemistry "The oxidized species of the couple is very oxidizing". Does this make sense?
Replies
5
Views
1K
Ionization of Zinc in galvanic cells
Replies
3
Views
2K
Zinc Voltaic Cell: Why Does Zinc Dissolve in Solution?
Replies
2
Views
2K
Understanding Galvanic Cells: Zinc and Copper Electrodes Explained"
Replies
20
Views
4K
Chemistry What does this equation for an electrochemical cell mean?
Replies
4
Views
1K

Hot Threads

Recent Insights

Back
Top