Curious about the world of static electricity? A homemade electroscope is an easy (and safe!) way to detect and learn more about electrical charges. All you need is a few simple supplies to get started—and we’re here to show you how. Read on to learn how to make an electroscope at home, as well as how to use your new device.
Assembling a DIY Electroscope
- Bend a copper wire in half and coil one end into a spiral.
- Hot glue a short piece of a straw into a jar lid with a hole in it.
- Thread the wire through the straw and bend the very tip into a hook.
- Cut out 2 identical, triangular pieces of tin foil.
- Place both pieces of foil onto the hook so they’re touching.
- Lower the foil end into a jar.
- Seal and tape the lid closed.
Steps
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Bend a section of copper wire in half with needle-nose pliers . Cut a 15 cm (5.9 in) section of copper wire for your electroscope. [1] X Research source You can make this length longer or shorter, depending on the size of your jar. Then, bend the wire at a 90-degree angle so it forms an “L” shape. [2] X Research source
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Coil the bent end of the wire into a spiral. Pinch and twist the wire with your pliers, curling it as you go. Make sure that the spiral is completely flat—this is the part of the electroscope that’ll be “picking up” the electrical charge from another object. [4] X Research source Try to create at least 3 circles in your spiral, so the wire covers a larger surface area.
- Make sure that your wire has at least 1 coiled spiral. [5] X Research source
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Make a cardboard lid for your electroscope. Flip your jar over and trace the opening onto a large piece of cardboard. Then, cut out the circular outline and punch a hole in the center with the tip of your scissors—just make sure it’s wide enough to fit a plastic straw. [6] X Research source
- You can also use an old plastic jar and lid that you’re about to recycle (like an old peanut butter jar). Use a drill to make a hole in the center of the plastic. [7] X Research source
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Cut a small piece of plastic straw and hot-glue it into the lid . Snip off a 3 in (7.6 cm) piece of straw and slide it through the lid’s opening. Using a hot glue gun , apply a circle of glue around both the top and bottom of the lid’s opening. Make sure that the straw is completely rigid before you continue. [8] X Trustworthy Source Science Buddies Expert-sourced database of science projects, explanations, and educational material Go to source
- It only takes a few minutes for hot glue to dry.
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Thread the straight section of wire through the straw. Arrange the straight portion of wire through the bottom of the straw and coiled section through the top part. [9] X Trustworthy Source Science Buddies Expert-sourced database of science projects, explanations, and educational material Go to source
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Bend the bottom of the wire into a hook shape. Use your fingers or a pair of needle-nose pliers to pinch the wire into a “U” shaped hook. [10] X Research source
- This part of the wire will be inside the jar.
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Hot-glue a small piece of straw to the opening in the lid. Using a hot glue gun , apply a circle of glue on along the top and bottom of the opening in the cardboard. Make sure that the straw is completely rigid before you continue. [11] X Research source
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Cut out 2 identical, leaf-shaped pieces of aluminum foil . Make both pieces about 1 in (2.5 cm) long. Cut along the edges of the foil to give the leaves a curved pear shape. [12] X Research source
- It’s okay if the shapes aren’t perfect! All that matters is that both pieces of foil are the same shape and size.
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Thread the foil leaves onto the wire hook so both pieces are touching. Pierce the tapered top of each leaf with a pin to create a small hole and slide both of the leaves onto the wire hook. Make sure that both pieces of foil are touching; otherwise, the electroscope won’t work properly. [13] X Research source
- You can also cut a small hole on the top of each leaf with a pair of scissors.
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Tape the lid apparatus onto a glass or plastic jar. Center the lid on top of the jar—ideally, the aluminum leaves will reach about halfway down in the jar. Then, cut a long strip of electrical tape and secure it snugly around the rim of the jar, holding the lid in place. [14] X Research source
- Don’t worry about taping the lid down if it’s an exact fit for the jar.
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Place the electroscope in a dry room without a lot of humidity. Moisture and static electricity don’t mix well—so, if you’re testing your electroscope in a humid area, you might not get any noticeable results. [15] X Research source Instead, set up your electroscope in a cool and dry room.
- Do you ever notice how you generate more static electricity when it’s dry and cold outside? That’s because there’s no moisture in the air to balance out the charges. [16] X Research source The drier the environment, the more static electricity you’ll be able to produce!
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Rub a piece of styrofoam with a piece of wool to generate static electricity . Give the styrofoam a really good rubbing so you can make a lot of static electricity at once. [17] X Trustworthy Source Science Buddies Expert-sourced database of science projects, explanations, and educational material Go to source
- You could also rub your fingertips along the front of a vinyl record to create static electricity.
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Hold the item up to the coiled section of wire and watch the foil leaves separate. You’ve transferred extra electrons to the surface of your item, so holding this negatively-charged item to the coil creates “electrostatic induction.” In other words, the negative charge transfers through the wire and negatively charges both pieces of aluminum, which forces them to separate. [18] X Trustworthy Source Science Buddies Expert-sourced database of science projects, explanations, and educational material Go to source
- Static electricity follows Coulomb’s Law—this is the idea that identical charges (like negative and negative) repel each other, while opposite charges (like positive and negative) attract one another. [19] X Research source
- Experiment with different items and see which ones can build up static electricity. Test them against your electroscope and see what happens!
Community Q&A
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QuestionAny ideas on why my electroscope does not work?Janice TiepermanCommunity AnswerYou might be testing your electroscope in a humid area. Moisture in the air balances out static electricity charges, which will prevent your electroscope from detecting static electricity. You might also be testing an item that doesn't store static electricity very well—try charging a piece of styrofoam and see what happens.
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QuestionI'm doing an electroscope and I don't have the materials required! Please help. What do I do?Janice TiepermanCommunity AnswerThere are lots of simple replacements you can use for your electroscope that you can easily find around your home. Switch out copper wire with a piece of a metal coat hanger, cut out a circle of cardboard if you don't have a plastic lid, and use any old plastic jar you have lying around if you don't have a glass one available.
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QuestionHow does the electroscope measure electric charge?Janice TiepermanCommunity AnswerAn electroscope doesn't actually measure electric charges—it just detects them. Some people tape a protractor template to the inside of their electroscope to get an idea of how strong the electrical charge is, though.
Video
Tips
- Print out a miniature protractor template and tape it to the inside of the lid so the protractor outline lines up with foil leaves. As you play with your electroscope, use the protractor guidelines to measure how far the leaves angle away from each other. [20] X Research sourceThanks
Warnings
- Don’t use a metal lid for this experiment—it will interfere with the electroscope’s wire. [21] X Research sourceThanks
Things You’ll Need
- Copper wire
- Needle-nose pliers
- Hot glue sticks
- Hot glue gun
- Cardboard
- Glass or plastic jar
- Plastic straw
- Aluminum foil
- Scissors
- Pin
- Wool
- Styrofoam
References
- ↑ https://www.sciences.univ-nantes.fr/sites/michel_maussion/statelec/PagesEngl/List.html
- ↑ https://www.education.com/science-fair/article/physics_making-electroscope/
- ↑ https://www.education.com/science-fair/article/physics_making-electroscope/
- ↑ https://www.education.com/science-fair/article/physics_making-electroscope/
- ↑ https://education.mrsec.wisc.edu/do-it-yourself-electroscope/
- ↑ https://www.education.com/science-fair/article/physics_making-electroscope/
- ↑ https://education.mrsec.wisc.edu/do-it-yourself-electroscope/
- ↑ https://www.sciencebuddies.org/stem-activities/electroscope
- ↑ https://www.sciencebuddies.org/stem-activities/electroscope
- ↑ https://education.mrsec.wisc.edu/do-it-yourself-electroscope/
- ↑ https://www.youtube.com/watch?v=M5Rjx-IUvF0&t=2m28s
- ↑ https://www.sciences.univ-nantes.fr/sites/michel_maussion/statelec/PagesEngl/Electrosc.html
- ↑ https://www.youtube.com/watch?v=wso0FqcnG7g&t=1m52s
- ↑ https://www.youtube.com/watch?v=wso0FqcnG7g&t=1m59s
- ↑ https://www.scienceworld.ca/resource/balloon-electroscope/
- ↑ https://www.accuweather.com/en/weather-news/how-to-avoid-getting-shocked-by-static-electricity-during-winter-2/432215
- ↑ https://www.sciencebuddies.org/stem-activities/electroscope
- ↑ https://www.sciencebuddies.org/stem-activities/electroscope
- ↑ https://openstax.org/books/college-physics/pages/18-3-coulombs-law
- ↑ https://www.youtube.com/watch?v=M5Rjx-IUvF0&t=5m15s
- ↑ https://www.sciences.univ-nantes.fr/sites/michel_maussion/statelec/PagesEngl/04Scop/Helpconst1.html
About This Article
To make a basic electroscope, poke 2 holes on opposite sides of a styrofoam cup and insert a plastic straw through the holes. Next, turn the cup upside-down and tape it to the bottom of an aluminum pie pan, near the edge, so one end of the straw hangs off the side. Then, measure out an 8-inch piece of thread and tie 3 knots at the end. Finally, tear off a small piece of aluminum foil, wrap it around the knots, and tape the loose end of the thread to the end of the straw that’s hanging off the pan. For tips on testing out your electroscope, read on!
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