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Which Materials are the Best Conductors?

Time Required Very Short (≤ 1 day)
Prerequisites None
Material Availability Readily available
Cost Very Low (under $20)
Safety When working with electricity, take precautions and beware of electric shock.


There are two main types of materials when it comes to electricity, conductors, and insulators. What are they made of? Find out by testing different materials in a circuit to see which ones conduct the most electricity.


In this experiment you will test different materials to see if they are good conductors of electricity.


Sara Agee, PhD, Science Buddies

Edited by Ben Finio, PhD, Science Buddies

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MLA Style

Science Buddies Staff. "Which Materials are the Best Conductors?" Science Buddies. Science Buddies, 6 Feb. 2016. Web. 24 July 2016 <http://www.sciencebuddies.org/science-fair-projects/project_ideas/Elec_p018.shtml?from=Blog>

APA Style

Science Buddies Staff. (2016, February 6). Which Materials are the Best Conductors?. Retrieved July 24, 2016 from http://www.sciencebuddies.org/science-fair-projects/project_ideas/Elec_p018.shtml?from=Blog

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Last edit date: 2016-02-06


The existence of electricity has been known since the ancient Greeks used to rub pieces of amber with fur to make static electricity. Benjamin Franklin is credited with the first demonstration that the electricity in lightening and static electricity are the same in his famous, but very dangerous, experiment. It took hundreds of years for thinkers, inventors and scientists to learn how to control and harness the power of electricity. You can learn more about electricity in the Science Buddies Electricity, Magnetism, & Electromagnetism Tutorial.

The first great achievement was the discovery of the concept of a circuit in 1800 by an Italian named Alessandro Volta. He showed that electricity flows through a circuit, and that a circuit needs to be complete, or closed, in order to work. He also invented the first battery, and we use the word Volt to identify the units of electricity.

The next great discovery was by a German school teacher named Georg Simon Ohm in 1826, who had been a student of Volta. He discovered that some materials slowed down, or resisted, the movement of electricity. He found out that there was a relationship between the amount of electricity in a circuit, the movement of electricity through the circuit and the resistance of the circuit. The movement of electricity through a circuit is described by Ohm's Law, which relates the voltage (measured in volts, abbreviated V) to the current (measured in amperes, abbreviated A) and to the resistance (measured in ohms, abbreviated with a capital Greek letter omega: Ω).

Electricity flows very well through some materials, and not so well through others. Materials that allow electricity to flow freely are called conductive materials. Materials that make the flow of electricity difficult are called insulators. Conductive materials have a very low resistance, and insulators have a very high resistance. Both conductors and insulators are common materials used to build circuits. The most common example is a copper wire (a conductor) that is covered by a plastic coating (insulator) used to make a circuit.

What other types of materials are conductors and insulators? In this experiment you will build your own simple light bulb circuit and use it to test different materials to see if they are conductors or insulators. By putting different materials in the circuit and observing the brightness of the bulb, you can make a list of conductors and insulators.

Terms and Concepts

To do this type of experiment you should know what the following terms mean. Have an adult help you search the Internet, or take you to your local library to find out more!

  • Electricity
  • Circuit
  • Electrons
  • Current
  • Resistance
  • Conductor
  • Insulator


  • How do electrons flow through different materials?
  • How is resistance measured?
  • How can different materials be tested for conductivity?


Here are some great Internet resources available:

  • Surf this website for kids by the First Energy Corporation. Find out about electricity, history, efficiency and safety while having fun too! They also provide an excellent glossary:
    First Energy Corp., 2005. "Electric Avenue." Akron, OH. [12/13/05] http://www.firstenergycorp.com/kids/
  • Thelwell, A., 2005. "The Blobz Guide to Electrical Circuits." Staffordshire University, UK. [12/13/05] http://www.andythelwell.com/blobz/
  • This site has a java applet you can use to make printable, color graphs of your data:
    NCES, 2006. "Create a Graph," National Center for Education Statistics (NCES) U.S. Dept. of Education. [accessed: 3/3/06] http://nces.ed.gov/nceskids/createagraph/

Also try these great books:

  • Glover, D., 1993. Batteries, Bulbs, and Wire, New York, NY: Kingfisher.
  • Berger, M., 1989. Switch On, Switch Off, New York, NY: Harper Trophy.
  • Cole, J. and Degen, B., 1997. The Magic School Bus and the Electric Field Trip, New York, NY: Scholastic Books, Inc.

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Materials and Equipment

The electronic parts for this experiment are available from Jameco Electronics.

  • several small pieces of different materials to test (aluminum foil, paper clips, wood, plastic, rubber bands, string, etc...);
  • AA batteries (4), part #198707
  • 4xAA battery holder, part #216152
  • Alligator clip leads (sold in a 10-pack, but you only need 3 for the project), part #10444
  • 6 V mini incandescent bulb, part #210008
  • flat, insulating surface (like a cutting board).

Disclaimer: Science Buddies occasionally provides information (such as part numbers, supplier names, and supplier weblinks) to assist our users in locating specialty items for individual projects. The information is provided solely as a convenience to our users. We do our best to make sure that part numbers and descriptions are accurate when first listed. However, since part numbers do change as items are obsoleted or improved, please send us an email if you run across any parts that are no longer available. We also do our best to make sure that any listed supplier provides prompt, courteous service. Science Buddies does participate in affiliate programs with Amazon.comsciencebuddies, Carolina Biological, Jameco Electronics, and AquaPhoenix Education. Proceeds from the affiliate programs help support Science Buddies, a 501(c)(3) public charity. If you have any comments (positive or negative) related to purchases you've made for science fair projects from recommendations on our site, please let us know. Write to us at scibuddy@sciencebuddies.org.

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Experimental Procedure

  1. Set up your circuit that you will use to test your materials, as shown in Figure 1.
    1. Insert the four AA batteries into the battery holder. Make sure the "+" signs on the batteries line up with the "+" symbols inside the battery holder.
    2. Connect a red alligator clip to the red wire from battery holder (in electronics, red wires are usually used for the "positive" connection).
    3. Connect a black alligator clip to the black wire from the battery holder (in electronics, black wires are usually used for the "negative" connection).
    4. Attach the other end of the black alligator clip to one of the light bulb leads.
    5. Attach one end of a yellow alligator clip to the other light bulb lead.
      1. Note: the color of this wire does not matter. Your alligator clip pack also came with green and white wires. You could use one of those instead.
      2. Note: the light bulb leads are very close together. Make sure the two alligator clips do not touch, or this will create a short circuit and the bulb will not light.
    6. You will connect your materials between the free ends of the red alligator clip and the yellow alligator clip.
test circuit for conductive materials
Figure 1. The test circuit for this experiment. The twist ties are not required, but they can help keep your circuit neat by bundling up the alligator clip leads.
  1. Make a data table for your results, including a place to write the type of material, source of material and the brightness of the light bulb:
Type of Material Source of Material Brightness of Bulb
(e.g., off, dim, bright)
  1. Next, place the first material into the circuit by clipping one end to the free red clip and the other end to the free yellow clip.
  2. Does the light bulb light up? How bright is it? Write down the results in the data table.
  3. Repeat steps 3 and 4 for each different material you want to test. Remember to write down, in your data table, how bright the light bulb appears for each material you test.
  4. How do the different materials compare? Do some materials have make the light bulb glow brightly while others only make it glow dimly? Do some materials not make the light bulb light at all?
  5. Categorize the materials according to your results. Put materials with high brightness readings (high brightness = high conductivity = low resistance) into the conductor category. Put materials with 'dim' brightness readings into the 'poor conductor' category. Put materials with 'off' brightness readings (no brightness = high resistance = low conductivity) into the insulator category.
Insulators Poor Conductors Conductors

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This experiment can be just the beginning to having fun building your own circuits. Here are many ways to make your experiment unique:

  • Try using the same circuit set-up to test different sizes and lengths of wire for performance in a circuit. Do different wires carry the same amount of current? Are long wires or short wires better? Does the size (gauge) of the wire matter?
  • Can you think of other energy sources to use for this experiment? Try using a solar cell, a wind vane, a crank, or shaker. (See Science Buddies Projects Human-Powered Energy and Crank Up the Music!)

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I did this project I Did This Project! Please log in and let us know how things went.

Ask an Expert

The Ask an Expert Forum is intended to be a place where students can go to find answers to science questions that they have been unable to find using other resources. If you have specific questions about your science fair project or science fair, our team of volunteer scientists can help. Our Experts won't do the work for you, but they will make suggestions, offer guidance, and help you troubleshoot.

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Related Links

If you like this project, you might enjoy exploring these related careers:

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Just as a potter forms clay, or a steel worker molds molten steel, electrical and electronics engineers gather and shape electricity and use it to make products that transmit power or transmit information. Electrical and electronics engineers may specialize in one of the millions of products that make or use electricity, like cell phones, electric motors, microwaves, medical instruments, airline navigation system, or handheld games. Read more
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