Homemade Battery Science Experiment

Thursday, December 10, 2015

Homemade Battery Science Experiment

  • This site uses affiliate links. Purchasing through these links does not cost you anything additional, but gives us a small referral fee.
  • This is a recreational blog. Although I've done my best to ensure the safety of each activity, clarity of directions, and accuracy of my educational activities; I can in NO way be held liable for your personal use of my material. Please use common sense.
See all disclosures here.
Harnessing the power of electricity is truly one of mankind's greatest achievements. From indoor lighting to smartphones, being able to use electrical energy to our advantage has completely changed the course of human history. This educational science activity provides kids with a simple, inexpensive way to create their own homemade batteries using materials that are likely already in their home (pennies, aluminum foil, paper towels, vinegar, and duct tape). With an inexpensive LED, kids can use their homemade batteries to power a useful device and feel some of the excitement that early inventors must have felt over two hundred years ago.

Electricity is a form of energy that comes from charged particles. In nearly all electrical devices, negatively charged particles called electrons flow along a wire to create a current which is used to power the device. A wire that is not connected to a power source has no reason to create an electrical current. When batteries are connected within a circuit, electrons want to flow from the negative electrode (called the anode) to the positive electrode (called the cathode) creating the current that will power the load. Within a battery, a separator is placed between anode and cathode to keep the electrons from flowing directly from one electrode to the other, forcing the electrons to flow along the external wire and power our devices. Another substance, called an electrolyte, is also placed between the anode and cathode. The electrolyte promotes the chemical reactions which will cause the anode to become negatively charged and the cathode to become positively charged. In this simple homemade experiment the anode is the aluminum foil, the cathode is the penny, the separator is the paper towel, and the electrolyte is the vinegar.

Electricity Science Experiment



  • Pennies (at least 5 if you would like to use your batteries to light up an LED)
  • Aluminum foil (only a small amount, about a foot (~1/3 meter) of length is needed)
  • Paper towels (about 1 square)
  • Vinegar (I used distilled white vinegar, but the type is not important. Could also use lemon juice or salt water. Only a small amount is needed.)
  • Duct tape
  • LED (optional, but the activity is more fun if you have something to power. I used a green LED which only required 2 volts to light. Some LEDs may require more.)
  • Alligator clips (optional, makes it easy to connect battery in a circuit, but could also use strips of aluminum foil instead. I only used 2.)
  • Voltmeter (optional, but makes the activity more meaningful if the child can measure how much voltage their battery produces.)



  1. First, tear a square piece of aluminum foil about 3 inches (8 cm) per side. Exact dimensions are not important. Cut-a-piece-of-aluminum-foil
  2. Fold the aluminum foil into a square about 1 inch (2.5 cm) on each side. Again, exact size is not important, but the square piece of aluminum foil should be a little bigger than a penny. Fold-aluminum-foil-into-a-square-slightly-bigger-than-a-penny
  3. Rip a piece of paper towel about the same size as the aluminum foil and fold it into a similarly sized square. Rip-a-small-piece-of-paper-towel
  4. Next, rip a piece of duct tape that is about the same width as the paper towel (or slightly bigger). Rip-a-piece-of-duct-tape-to-tape-battery-together
  5. Layer the penny, paper towel square, and aluminum foil squares on top of the duct tape. The penny should stick out from the duct tape slightly. The paper towel should line up with the duct tape edge on the penny side (and be completely covered on the other side). The aluminum foil should hang over the other end of the duct tape and should not touch the penny at all. Tape-layers-together
  6. Fold over the duct tape to hold the 3 layers together. The front and back of your battery should look like this: Front-and-Back-of-Battery
  7. Finally, add a few drops of vinegar to the paper towel to act as the electrolyte. Your battery is complete.
  8. If you have a voltmeter, connect the positive, red lead to the copper penny and the negative, black lead to the aluminum foil. Turn the dial to the lowest voltage setting. Your battery should measure in the vicinity of half a volt. Measure-battery-voltage
  9. If you would like to light up an LED, you will need to make 3 or 4 more batteries by repeating steps 1 through 7. I ended up needing 5 total. Depending on your particular LED, you may need more or fewer. Repeat-4-more-times-to-make-5-batteries-total
  10. Connect your batteries in series by attaching the penny of one battery to the aluminum foil of the next with duct tape. Tape-the-batteries-together-in-series
  11. Use alligator clips to attach the ends of your battery series to the LED. Remember that an LED is directional. Most likely the long leg of the LED will need to attach to the penny end and the short leg will attach to the aluminum foil, but if it does not work, try switching the leads. Connect-light-bulb-to-battery-series-with-alligator-clips
  12. If you are experiencing difficulty, try pushing down on your batteries to make sure all the connections are firmly in place. You can use your hands or some other heavy object (like a banana). Apply-presssure-to-battery-series-in-order-to-light-LED

More Science Activities for Kids




Michelle Science Experiment Contributor
Michelle is a homeschooling mama of 3 young kiddos and a former engineer and research scientist. She blogs at Research Parent, an education-focused website featuring free printable learning material and activities for K-12. Follow along on PinterestFacebookInstagram, and Twitter

No comments:

Post a Comment