Potato Powered Clock
We all know that scientists all over the glove are trying to come up with new energy sources, right? For those of you that didn’t, now you know! And guess what? Potatoes are actually a pretty great resource. Try this fun little experiment to prove it!
What You Need:
Two short pieces of heavy copper wire
Two common galvanized nails
Three alligator clips/wire units (alligator clips connected to each other with wire)
One simple low-voltage LED clock that functions from a 1- to 2-volt button-type battery
- Remove the battery from the battery compartment of the clock.
- Make a note of which way around the positive (+) and a negative (-) points of the battery went.
- Number the potatoes as one and two.
- Insert one nail in each potato.
- Insert one short piece of the copper wire into each potato as far away from the nail as possible.
- Use one alligator clip to connect the copper wire in potato number one to the positive (+) terminal in the clock's battery compartment.
- Use one alligator clip to connect the nail in potato number two to the negative (-) terminal in the clock's battery compartment.
- Use the third alligator clip to connect the nail in potato one to the copper wire in potato two and set the clock!
How it works:
A potato battery is an electrochemical battery, otherwise known as an electrochemical cell. An electrochemical cell is a cell in which chemical energy is converted to electric energy by a spontaneous electron transfer. In the case of the potato, the zinc in the nail reacts with the copper wire. The potato acts as a sort of buffer between the zinc ions and the copper ions. The zinc and copper ions would still react if they touched within the potato but they would only generate heat. Since the potato keeps them apart, the electron transfer has to take place over the copper wires of the circuit, which channels the energy into the clock. Presto! You have potato power.