Difference between revisions of "Jumping Wire"

From UO Physics Demonstration Catalog

 
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{{NewDemo|subject=Electricity and Magnetism|topic=Magnetic Fields and Forces|file1=Jumping Wire.gif|file2=jumping speaker.jpg}}
{{NewDemo|subject=Electricity and Magnetism|topic=Magnetic Fields and Forces|file1=Jumping Wire.gif|file2=jumping speaker.jpg|file3=Jumping_Speaker.mp4}}


String a wire between the poles of the large magnet and connect the ends to a power supply. Turn on a small current through the wire and it will jump out. Reverse the polarity and the wire will jump into the magnet.
String a wire between the poles of the large magnet and connect the ends to a power supply. Turn on a small current through the wire and it will jump out. Reverse the polarity and the wire will jump into the magnet.

Latest revision as of 11:02, 4 May 2022

Return to Magnetic Fields and Forces

Jumping Wire.gif
Jumping speaker.jpg

Description:

String a wire between the poles of the large magnet and connect the ends to a power supply. Turn on a small current through the wire and it will jump out. Reverse the polarity and the wire will jump into the magnet. Also available as a variation on this concept is the "jumping speaker" demo. There are a couple speakers in drawer 43 that look like the above photo and are detached from their bases with 2 wires coming out from the speaker coil. Make sure the speaker is sitting fairly flat and snug in the speaker base, then connect the wires to a 9V battery (either by tapping the battery to the leads as shown in the photo, or by using alligator clips) to see the speaker jump out of the base.

Location:

  • Big Magnet: Shelf O-3
  • Speakers: Dr. 43
  • 9V Battery: Dr. 69