| Magnetic
Quenching - This experiment tests whether there is any value in a
magnetically quenched spark gap. |
| Fluorescent
Tube Voltage Source - This experiment uses the voltage gathering
property of fluorescent gas to generate a voltage potential.
Although it does not produce any significant amount of power, it may be
useful as a dipole energy source. |
| Crystal
Radio - If you're serious about radiant
energy, you will have to build at least one crystal radio in your
lifetime. This is a great link to get you started. |
| Bucking
Magnets - Fashioned after John Bedini's experiment, this bucking
magnet was made to see if it could tap free energy. It is composed
of two strong neodymium magnets with their north poles glued
together. The experiment succeeded in generating about 80 mV but
with no discernable current. |
| Eddy
Currents - If you haven't
experimented with eddy currents yet, you need to. Try this
experiment to see just how powerful of an effect they can produce. |
| Bifilar
Electromagnet - One of Tesla's
patents. This experiment shows how to build a bifilar coil that
generates several times more magnetism than single wound coils with the
same amount of wire. This experiment succeeded in producing strong
electromagnets. |
| Winding
Directional Coils - This link shows how to
wind experimental directional coils. They are similar to Tesla's
bifilar coils. |
| Bedini
Inspired Scalar Beamer - This is the experiment the bucking
magnets experiment above. In this experiment scalar waves are said
to be produced with neodymium magnets. |
| Microwave
Induced Plasma Balls - This is a
potentially dangerous experiment and so is not recommended for beginning
or intermediate experimenters. This experiment generates plasma
balls similar to ball lightning. |
|
Magnetism
Experiments - This link has several magnet
experiments including levitating balls, jumping rings, superconductors and
can crushers. |
