Difference between revisions of "Electrogravitic Thruster"
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| − | Thomas Chenhall's paper placed second in the Electric Spacecraft Competition because of its level of practicality. He outlined an experiment designed to augment the Biefeld-Brown effect. It used a series of very thin layers of a material of high dielectric constant sandwiched between metal sheets of alternating polarity. The plates were round with a bulge in the middle, creating in their composite a flying saucer shape. | + | Thomas Chenhall's paper placed second in the Electric Spacecraft Competition because of its level of practicality. He outlined an experiment designed to augment the Biefeld-Brown effect. It used a series of very thin layers of a material of high dielectric constant sandwiched between metal sheets of alternating polarity. The plates were round with a bulge in the middle, creating in their composite a flying saucer shape. |
| − | [[Category:Gravity]] | + | [[Category:Scientific Paper|electrogravitic thruster]] |
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| + | [[Category:Gravity|electrogravitic thruster]] | ||
Latest revision as of 19:29, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Electrogravitic Thruster |
| Author(s) | Thomas L Chenhall |
| Keywords | T. T. Brown, electrogravitics, propulsion, antigravity, levitation |
| Published | 1998 |
| Journal | Electric Spacecraft Journal |
| Number | 24 |
| Pages | 23-24 |
Abstract
Thomas Chenhall's paper placed second in the Electric Spacecraft Competition because of its level of practicality. He outlined an experiment designed to augment the Biefeld-Brown effect. It used a series of very thin layers of a material of high dielectric constant sandwiched between metal sheets of alternating polarity. The plates were round with a bulge in the middle, creating in their composite a flying saucer shape.
