Thursday 30 November 2017

electricity - Will a battery connected to the Earth eventually deplete?


I've been thinking about this, and my answer is leaning towards yes, but I couldn't find any definitive answer by Googling.


If the higher potential side of a typical battery is connected by wire to a spike driven into the ground, will it eventually deplete?


My thought process is that the voltage difference will cause current to flow between the electrode and the earth, causing the battery to eventually "die," just as if it was connected in a circuit.


However, I also wonder what the difference is between this situation and shorting the battery. Connecting the anode and cathod of a battery together will cause it to heat up and damage itself, but will the same happen if its connected to ground? Isn't it (physically) the same situation?



Answer



Here is the thing about potential/voltage. Potential/voltage is a measure of difference in the, say, potential energy between two points in space. So the correct term is actually: "potential/voltage difference" when we talk about that stuff. So when you talk about batteries, the higher potential side of the battery is higher, with respect to, the lower side. It has nothing to do with anything else, you, me, your computer, the Sun or Earth. Technically, the higher potential side of the battery is not higher/lower than earth.



Here is what happens when you touch the "+" side of the battery to ground: enter image description here


Soil resistance might be very low depending on the type of soil. However, air resistance is much higher which will prevent battery discharge.


By the way, both soil and air can conduct current with free ions. (Higher voltages cause big ionization i.e. lightnings) (Pouring salt water in soil also helps lower soil resistance)


Now, if you throw your battery in soil and pour some saltwater in there, you'll definitely be seeing a discharge!


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