Does EMF Change During Battery Charging?

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    Battery Charging Emf
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SUMMARY

The discussion clarifies that the electromotive force (emf) of a battery does change during the charging process. When charging, a voltage greater than the battery's emf is applied, reversing the internal chemical reactions and allowing energy to be stored as chemical energy. The change in Gibbs Free Energy (ΔG) during this process is influenced by the concentration of ions in the battery solution, which varies with the battery's charge state. Therefore, while the applied voltage drives current in the opposite direction, the emf itself is not constant and does indeed change as the battery charges or discharges.

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  • Understanding of electromotive force (emf) in electrochemistry
  • Familiarity with Gibbs Free Energy (ΔG) and its implications
  • Basic knowledge of chemical reactions in batteries
  • Concepts of ion concentration and its effect on battery performance
NEXT STEPS
  • Research the Nernst Equation and its application in electrochemistry
  • Study the relationship between Gibbs Free Energy and battery chemistry
  • Explore the impact of ion concentration on battery efficiency
  • Read "Chemistry" by Steven and Susan Zumdahl for foundational knowledge in electrochemistry
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Students and professionals in electrochemistry, battery engineers, and anyone interested in understanding the dynamics of battery charging and the underlying chemical processes.

vikcool812
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My doubt is that when we charge a battery we say that energy is transferred into it , but does the emf of a battery change in this process ? Is the emf same before and after charging , if yes then what actually happens during charging a battery ??

pls help !
 
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When you charge a battery, you apply a voltage greater than that of battery's in order to reverse the internal chemical reaction. The battery's emf is overcome by the voltage you apply to the leads.

The net result is a potential gradient large enough to reverse the chemical flow by pumping energy into the reactions. This is where the energy is stored.
 
so this means that the emf does not change , the extra potential applied just gets converted to chemical energy , did i get it right ??
 
The emf is the electromotive force. This is what pushes the electrons through the circuit and back to ground. Charging a battery sort of provides a bigger emf in the other direction, driving the current backwards. So while the battery is charging the total emf is the other direction but the emf provided by the battery remains the same.
 
A battery's emf does actually change as it is charged or discharged.
 
now i am a bit confused , even i think that the emf changes , but i am unable to figure out the reason , could someone just explane it . pls...
 
Hmm, it's been a while since I studied electrochemistry. I know it has to do with the change in Gibbs Free Energy (ΔG) for the chemical reaction involved, and ΔG depends on the concentration of ions in the battery solutions, which in turn depends on the charge state of the battery.

This site goes into it in detail, but assumes you are familiar with Gibbs Free Energy:
http://www.science.uwaterloo.ca/~cchieh/cact/c123/nernsteq.html

If nobody else can provide a better answer, I'll recommend you look at an introductory chemistry book (perhaps high school honors level, or college freshman level) that has a chapter devoted to electrochemistry. You'll need to be familiar with concepts like enthalpy and free energy, which would also be covered in such a book.

In particular, I can recommend the book Chemistry by Steven and Susan Zumdahl.
 
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