Difference between revisions of "Thoughts on the Biefeld-Brown Effect"
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==Abstract== | ==Abstract== | ||
| − | This is a preliminary quantification of the Biefeld-Brown effect. The approach has four principal features: (1) the equivalence of acceleration and gravitation is applied to elementary charges; (2) the net mass of the charges becomes imaginary when v > c in a dielectric; (3) the upward acceleration of an electrified capacitor is obtained through the application of an imaginary gravitational constant to the imaginary mass; and (4) ?rescaling? the acceleration of charge leads to the same result as in (3), but without recourse to imaginary quantities. | + | This is a preliminary quantification of the Biefeld-Brown effect. The approach has four principal features: (1) the equivalence of acceleration and gravitation is applied to elementary charges; (2) the net mass of the charges becomes imaginary when v > c in a dielectric; (3) the upward acceleration of an electrified capacitor is obtained through the application of an imaginary gravitational constant to the imaginary mass; and (4) ?rescaling? the acceleration of charge leads to the same result as in (3), but without recourse to imaginary quantities. |
| − | [[Category:Gravity]] | + | [[Category:Scientific Paper|thoughts biefeld-brown effect]] |
| + | |||
| + | [[Category:Gravity|thoughts biefeld-brown effect]] | ||
Latest revision as of 20:09, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Thoughts on the Biefeld-Brown Effect |
| Author(s) | Larry D Adams |
| Keywords | Biefeld-Brown, electrogravitics, electrokinetics |
| Published | 1992 |
| Journal | Electric Spacecraft Journal |
| Number | 6 |
| Pages | 29-34 |
Abstract
This is a preliminary quantification of the Biefeld-Brown effect. The approach has four principal features: (1) the equivalence of acceleration and gravitation is applied to elementary charges; (2) the net mass of the charges becomes imaginary when v > c in a dielectric; (3) the upward acceleration of an electrified capacitor is obtained through the application of an imaginary gravitational constant to the imaginary mass; and (4) ?rescaling? the acceleration of charge leads to the same result as in (3), but without recourse to imaginary quantities.
