Difference between revisions of "Fireball Production from a Tesla Coil"
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==Abstract== | ==Abstract== | ||
− | James and Kenneth Corum searched the historical record for clues as to how Tesla was able to generate fireballs on-demand. They discovered that operating two, different-frequency coils placed inside the primary made this possible. They also found that airborne carbon or metal particulates enhanced the effect. | + | James and Kenneth Corum searched the historical record for clues as to how Tesla was able to generate fireballs on-demand. They discovered that operating two, different-frequency coils placed inside the primary made this possible. They also found that airborne carbon or metal particulates enhanced the effect. |
− | [[Category:Tesla]] | + | [[Category:Scientific Paper|fireball production tesla coil]] |
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+ | [[Category:Tesla|fireball production tesla coil]] |
Latest revision as of 19:33, 1 January 2017
Scientific Paper | |
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Title | Fireball Production from a Tesla Coil |
Author(s) | James F Corum, Kenneth L Corum |
Keywords | do-it-yourself, fireballs, replication, Tesla, Tesla coils |
Published | 2003 |
Journal | Electric Spacecraft Journal |
Number | 36 |
Pages | 20-22 |
Abstract
James and Kenneth Corum searched the historical record for clues as to how Tesla was able to generate fireballs on-demand. They discovered that operating two, different-frequency coils placed inside the primary made this possible. They also found that airborne carbon or metal particulates enhanced the effect.