Electric current is found when Menthos is put in Coca cola

AI Thread Summary
The discussion centers on an experiment where Menthos is added to Coca-Cola, leading to a significant overflow and the unexpected generation of electric current, as measured by a multimeter. The experimenter invites others to replicate the findings to verify the results. Responses suggest that the observed current may be due to the acidic nature of Coca-Cola reacting with the metal probes, creating a potential difference. Additionally, the fluctuating concentrations of electrolytes during the reaction could contribute to the current readings. The conversation emphasizes the need for detailed methodology to understand the results better.
thinh123
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Few years ago, we have known about the phenomenon that Coca cola is overflow severely when a piece of Menthos candy is put inside.

I replicate this experiment, with a multimeter is used to measure the current. With my surprise, the needle vibrates to show that an electric current is generated.

Could anyone repeat my experiment to find out that if I am wrong or not

Thank you
 
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thinh123 said:
Few years ago, we have known about the phenomenon that Coca cola is overflow severely when a piece of Menthos candy is put inside.

I replicate this experiment, with a multimeter is used to measure the current. With my surprise, the needle vibrates to show that an electric current is generated.

Could anyone repeat my experiment to find out that if I am wrong or not

Thank you
I think a somewhat better description of what you did is needed. Where did you put the probes, what is the material of the probes, what is the range of the multimeter, etc.
 
Your observation is not unsurprising. Coke is acidic so will react with metal immersed in it. You expect to see a potential difference between immersed electrodes if there is a concentration difference in the electrolyte. The menthos reaction is unevenly distributed in the bottle, and as the reaction proceeds it causes a fluctuating difference in electrolyte concentrations near the electrodes.

When the reaction has ceased, does the current also appear to cease?
 
NascentOxygen said:
Your observation is [strike]not[/strike] unsurprising.

Correcting my own post.
 

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