- Science Toys
- Magnetism
- Magnetorheological fluids
- A Curie-effect heat engine
- A magnet in mid-air
- Pyrolytic graphite in mid-air
- The Gauss Rifle: A Magnetic Linear Accelerator
- A Magnetic Ring Launcher
- Electromagnetism
- An electric motor in 10 minutes
- The single brush motor
- A bigger motor
- The double brush improvement
- The 10 minute motor with no magnet
- Notes about electricity
- Fun with High Voltage
- A high voltage motor in 5 minutes
- A rotary high voltage motor
- A simple homemade Van de Graaff generator
- A high voltage ion motor
- A 10 minute railgun
- A 30 second motor
- Listening to magnetism
- Electrochemistry
- A plastic hydrogen bomb
- Building your own solar battery.
- A flat panel solar battery.
- Building a Hydrogen Fuel Cell.
- Homemade Batteries.
- Collecting Chemical Elements.
- Radio
- A quick and simple radio
- Building a radio in 10 minutes
- A radio out of household items
- A simple AM transmitter
- The Three-Penny Radio
- A Portable Crystal Radio
- Thermodynamics
- Simple heat engines
- World's simplest steam boat
- A simple rotary steam engine
- A simple rocket engine
- A bimetal strip heat engine
- A Film Can Cannon
- A metal that melts in hot water
- A room temperature liquid metal alloy
- A simple solar powered heat engine
- Homemade Ice Cream Maker
- Aerodynamics
- A Bernoulli levitation ball
- A Homemade Vacuum Pump
- A Classic Propellor Toy
- Light and optics
- Simple laser communicator
- Make your own 3D pictures
- Making permanent rainbows.
- A solar powered marshmallow roaster
- Make a spectroscope from a CD.
- The impossible kaleidoscope
- Make a solar hotdog cooker
- Exploring invisible light
- A high resolution spectrograph.
- Time-lapse photography.
- High speed photography.
- Stacking photos for high depth of field.
- Biology
- Extracting DNA in your kitchen
- Photography through the microscope
- Video through the microscope
- Listening to Electric Fish
- Using a video camera as a microscope
- Mathematics
- Kaleidocycles
- A Geodesic Dome
- A Homemade Microgram Balance
- Computers and Electronics
- A Computer Controlled Transmitter
- A Free Space Laser Data Transmitter
- Fun With Solderless Breadboards
- A Simple 1 Watt Amplifier
- An integrated circuit Amplifier
- Build a digital thermometer
A high voltage motor in 5 minutes
This toy is so simple to build, it goes together in 5
minutes from a few things found around the house.
Click on the photo to see an animated picture
The toy is a high voltage motor that acts like a bell,
with a clapper that bangs furiously from one can to the other
and back again, sometimes several times per second.
Occasionaly, the big blue spark snaps between the cans, to
add interest to frenetic activity.
To build the toy, you need:
- Two empty soda cans.
- A plastic rod such as a ball-point pen.
- 5 inches of sewing thread.
- A couple square feet of aluminum foil.
- Cellophane tape.
- Two wires (alligator test leads work great).
The photo may be all you need to get the toy working.
Remove the pull-tops from both cans, and discard one of the
pull-tops.
Tie the thread to the other pull-top. Tape the other end of
the thread to the center of the plastic rod.
Place the two cans side-by-side two or three inches apart.
Place the plastic rod on top of the two cans, so the pull-tab
dangles freely about an inch from the table.
Tape the bare end of one wire to the left can. This is the
ground wire, and the free end should be connected to an
electrical ground, such as a cold water pipe, or the metal
frame of a computer. If a good electrical ground is not
convenient, you can just hold onto the free end, since your
body is a good enough ground for this device.
Tape the other wire to the can on the right. It's free end
will be connected to a source of high voltage. This is
easier than it sounds, since a safe source of high voltage
is right in front of you when you watch television or use
a computer with a CRT monitor.
In the photo above, you can see that the toy is sitting on top of
a television. About two square feet of aluminum foil is pressed
onto the face of the TV screen. It sticks there because the TV
screen is highly charged with electricity. The free end of the
right can's wire is attached to the aluminum foil.
You start the toy by turning on the TV. The pull-top gets pulled
to one can, but when it hits it, it gets pulled to the other can,
and then repeats.
How does it do that?
Inside a television, a high voltage is used to send electrons
to the screen at high speed, to create the picture. By placing
a large conductor on the front of the screen, we can make a
capacitor, to tap into some of that high voltage and put it to use
outside of the television. The voltage is high, but the current
is very small, so that touching the foil or the toy is no more
harmful than touching a doorknob after scuffing your feet on
the carpet.
The can on the right is connected to the high voltage. The can
on the left is connected to the ground, which can absorb all of
the voltage we can send it, and still be ready for more.
The pull-tab and the can on the left starts out without any
electrical charge. We say they are at "ground potential".
The can on the right is charged with a lot of free electrons,
from the foil on the TV screen. These electrons repel the
electrons in the pull-tab, and attract the positive nuclei
in the pull-tab.
The electrons in the pull-tab move to the side farthest from
the high voltage can on the right. This leaves the right
side of the pull-tab more positive than the left side. The
positive side of the pull-tab is attracted to the highly
negative can on the right, and the pull-tab jumps over to
touch the can on the right.
Once it touches the can, the electrons from the can rush onto the
pull-tab, until it has the same high voltage charge as the can
it is touching. The pull-tab and the can now have the same
charge, and like charges repel. The charged pull-tab is now
repelled by the can on the right, and moves to the left.
The electrons in the can on the left are repelled by the pull-tab,
and they move to the left side of the can, leaving the right
side somewhat positive. This positive side attracts the negatively
charged pull-tab, and draws it up to touch the can.
Now the excess electrons on the pull-tab move onto the left can,
and into the ground. The pull-tab is now at ground potential
again. It swings back towards the can on the right, and the
whole process starts over again.
A fancier version
The device we have just built is called "Franklin's Bells",
after a description of the device given by Benjamin Franklin,
who used it to detect the approach lightning storms. He
connected one end to his lightning rod on top of the house,
and the other end to an iron water pump well connected
to the ground.
Of course Ben didn't use soda cans. He used bells.
Click on the photo to see an animated picture
I built a pretty version with bells and set it up on top
of the TV just like our first version.
Click on the photo to see a larger picture
I left the clappers on the bells, even though they no
longer serve any purpose. The bells are connected to
the aluminum foil and the ground by thin copper wires
you can just barely see in the photo.
The bells are from a
craft store. The clapper
is one of the small round bells called "jingle bells".
Next: A rotary high voltage motor
Del.icio.us
- Science Toys
- Magnetism
- Magnetorheological fluids
- A Curie-effect heat engine
- A magnet in mid-air
- Pyrolytic graphite in mid-air
- The Gauss Rifle: A Magnetic Linear Accelerator
- A Magnetic Ring Launcher
- Electromagnetism
- An electric motor in 10 minutes
- The single brush motor
- A bigger motor
- The double brush improvement
- The 10 minute motor with no magnet
- Notes about electricity
- Fun with High Voltage
- A high voltage motor in 5 minutes
- A rotary high voltage motor
- A simple homemade Van de Graaff generator
- A high voltage ion motor
- A 10 minute railgun
- A 30 second motor
- Listening to magnetism
- Electrochemistry
- A plastic hydrogen bomb
- Building your own solar battery.
- A flat panel solar battery.
- Building a Hydrogen Fuel Cell.
- Homemade Batteries.
- Collecting Chemical Elements.
- Radio
- A quick and simple radio
- Building a radio in 10 minutes
- A radio out of household items
- A simple AM transmitter
- The Three-Penny Radio
- A Portable Crystal Radio
- Thermodynamics
- Simple heat engines
- World's simplest steam boat
- A simple rotary steam engine
- A simple rocket engine
- A bimetal strip heat engine
- A Film Can Cannon
- A metal that melts in hot water
- A room temperature liquid metal alloy
- A simple solar powered heat engine
- Homemade Ice Cream Maker
- Aerodynamics
- A Bernoulli levitation ball
- A Homemade Vacuum Pump
- A Classic Propellor Toy
- Light and optics
- Simple laser communicator
- Make your own 3D pictures
- Making permanent rainbows.
- A solar powered marshmallow roaster
- Make a spectroscope from a CD.
- The impossible kaleidoscope
- Make a solar hotdog cooker
- Exploring invisible light
- A high resolution spectrograph.
- Time-lapse photography.
- High speed photography.
- Stacking photos for high depth of field.
- Biology
- Photography through the microscope
- Video through the microscope
- Listening to Electric Fish
- Using a video camera as a microscope
- Mathematics
- Kaleidocycles
- A Geodesic Dome
- A Homemade Microgram Balance
- Computers and Electronics
- A Computer Controlled Transmitter
- A Free Space Laser Data Transmitter
- Fun With Solderless Breadboards
- A Simple 1 Watt Amplifier
- An integrated circuit Amplifier
- Build a digital thermometer
Some of my other web sites:
- Your Mother was a Chemist: Science in the Kitchen
- Ingredients: What's in the Stuff We Buy?
- Toying With Science: My Science Blog
Send mail to
Simon Quellen Field
via
sfield@scitoys.com
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