How a Battery Works: Anode, Cathode & Electrolyte Explained

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A battery operates through the interaction of an anode, cathode, and electrolyte, with the electrolyte facilitating the necessary chemical reactions between the electrodes. Using a conductor instead of an electrolyte is not viable because it would not support the chemical processes required for battery function. The absence of an electrolyte between certain layers in a stacked penny and nickel battery setup raises questions about the battery's efficiency and functionality. Adding an electrolyte in those gaps could enhance performance, while completely removing electrolytes would prevent the battery from operating effectively. Understanding these principles is crucial for grasping how batteries generate and store energy.
overtak3n
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So I understand that a battery consists of an anode, cathode, and electrolyte.

Question: What is the function of the electrolyte? Can we use a conductor instead of an electrolyte like some kind of metal? If so, why don't we?

Now for a penny and nickel battery stacked on top of each other you have a
penny, electrolyte (wet cardboard), nickel, penny, electrolyte, nickel, etc.
I have three questions:
1) Why is there no electrolyte between nickel and penny? (Look in the middle and you'll see what I mean)
2) Will it work if there was an electrolyte there?
3) Will it work without any electrolytes between any of the pennies and nickels?
 
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Thank you for responding.

I didn't realize it has to do with the chemical reaction.
 
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