Difference between revisions of "Dielectrophoresis"
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| − | Newton?s laws describe how masses exert forces on each other. Forgetting that mass and charge are inextricably connected, many rocket scientists maintain that the only hope for electric propulsion will involve some form of reaction mass ? as with in jets. Microbiologists however, have for years been observing several classes of motions induced by coulomb forces. [Erratum: This is non sequitur. Charge may move mass, but reaction mass will always conserve momentum.] The different motions are distinguished by the ionization processes involved and the type of motion resulting. An illustrated summary of the forces discussed in this paper appears on the back cover.[[Category:Scientific Paper]] | + | Newton?s laws describe how masses exert forces on each other. Forgetting that mass and charge are inextricably connected, many rocket scientists maintain that the only hope for electric propulsion will involve some form of reaction mass ? as with in jets. Microbiologists however, have for years been observing several classes of motions induced by coulomb forces. [Erratum: This is non sequitur. Charge may move mass, but reaction mass will always conserve momentum.] The different motions are distinguished by the ionization processes involved and the type of motion resulting. An illustrated summary of the forces discussed in this paper appears on the back cover. |
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| + | [[Category:Scientific Paper|dielectrophoresis]] | ||
Latest revision as of 10:15, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Dielectrophoresis |
| Author(s) | Leslee A Kulba |
| Keywords | Brownian motion, dielectrophoresis, electrophoresis, electrostriction, piezoelectricity |
| Published | 2002 |
| Journal | Electric Spacecraft Journal |
| Number | 35 |
| Pages | 6-8 |
Abstract
Newton?s laws describe how masses exert forces on each other. Forgetting that mass and charge are inextricably connected, many rocket scientists maintain that the only hope for electric propulsion will involve some form of reaction mass ? as with in jets. Microbiologists however, have for years been observing several classes of motions induced by coulomb forces. [Erratum: This is non sequitur. Charge may move mass, but reaction mass will always conserve momentum.] The different motions are distinguished by the ionization processes involved and the type of motion resulting. An illustrated summary of the forces discussed in this paper appears on the back cover.
