University of Wisconsin-Madison Materials Research Science and Engineering Center Interdisciplinary Education Group

• Activities and Programs

• Amorphous Metal
• Balloon Models of Nanotubes (Tabletop)
• Balloon Models of Nanotubes (Suspended Sculpture)
• Cutting it Down to Nano
• Electric Squeeze
• Ferrofluid
• Forms of Carbon
• LEDs
• Liquid Crystals
• Magic Sand
• Memory Metal
• Mitten Challenge
• Nanostained Glass
• Nanosurfaces
• Probe Microscopy
• Wheel of Fortune
• Writing with Light

Electron Race Tabletop Exhibit

• Materials
• Learn More

This exhibit demonstrates how the electrical conductivity in carbon nanotubes is different from the conductivity in copper metal. Participants race "electrons" through the two structures, and observe that the "electron" (or ball bearing) passes more quickly through the CNT model.

Why is the CNT a better conductors? In copper metal, electrons travel in all 3 dimensions. While traveling through a wire, they bump and scatter off copper atoms. The scattering slows down electrons. The scattered electrons lose energy in the form of heat. In a CNT, electrons travel along the length of the nanotube. Electrons have fewer obstacles to bump and scatter off. The fewer the obstacles the less scattering occurs. The electrons lose less energy and move up to three times as fast.

Materials

• 2 ball bearings
• Electron race tabletop exhibit

Learn More

Carbon Nanotubes & Buckyballs background

Resources:

• Videos:
  • CNT Videos
• Slides:
  • CNT Slides
• Activities:
  • Nanoarchitecture: Forms of Carbon Activity
  • How Small are Nanotubes? Activity
  • Using Vectors to Construct CNTs High School Module
  • Forms of Carbon Computer Modeling
  • Suspended Balloon CNT Model
  • Tabletop Balloon CNT Activity

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