You can fly with a little help from your friend Eddy
You can fly with a little help from your friend Eddy
Introduction
Eddy currents in copper help you to fly a magnet in midair.
Materials
Assembly
Use the nonmagnetic spacers to keep the pieces of
coper separated.
The closer the pieces of copper are to each other the easier it is to
fly the magnet.
To do and notice
Place the flying magnet between the slabs of
copper.
Raise and lower the lifting magnet to fly the flying magnet between
the slabs of copper.
If you completely remove the lifting magnet then raise the flying magnet and drop it you will see that it falls slowly. Much slower than freefall under gravity.
What's going on?
When a magnet moves near a conductor of electricity electric currents called eddy currents are induced to flow in the conductor.
These eddy currents make magnetic fields which oppose the motion of the magnet.
These eddy currents slow the fall and the rise of the flying magnet.
They slow the motion of the flying magnet enough that the human eye-brain-hand feedback loop has enough time to adjust the position of the lifting magnet to keep the flying magnet in the air between the slabs of copper.
So What?
Eddy currents are used to stop some freefall rides at amusement parks. Large neodymium magnets are placed on the back of a car. The magnets surround a rail.
Part way down the fall the rail is made of
copper.
Eddy currents in the copper slow the car to a safe stop.
At Great America south of San Francisco, the ride is known as the drop zone.
|
Scientific Explorations with Paul Doherty |
|
16 Oct 2002 |