The Significance of Positive Electrization on Lifting Force
American Journal of Aerospace Engineering
Volume 4, Issue 6, December 2017, Pages: 59-62
Received: Dec. 28, 2017;
Accepted: Jan. 16, 2018;
Published: Feb. 7, 2018
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Yuri Pivovarenko, Research and Training Centre ‘Physical and Chemical Materials Science’ Under Kyiv Taras Shevchenko University and NAS of Ukraine, Kiev, Ukraine
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Due to the daily rotation of the Earth the lower layers of earth's atmosphere are continuously crossed by horizontal lines of the geomagnetic field. For this reason, near the earth's surface there is an upward-directed Lorentz force. Under the action of this force the positively charged objects move upward and the negative charges down. As a result, this force can increase the lift of flying objects that have a positive charge: water vapor, birds, insects, airplanes and space rockets. In addition, the action of the upward directed Lorentz force blocks the deflection of the racket's body in the horizontal direction, that is, ensures its equilibrium.
Evaporation, Insects, Flying Insects, Birds, Flying Birds, Rockets
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The Significance of Positive Electrization on Lifting Force, American Journal of Aerospace Engineering.
Vol. 4, No. 6,
2017, pp. 59-62.
Copyright © 2017 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/
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Feinman, R., Leiton, R., and Sands, M. (1965) FLP 5, Moscow: Mir. In Russian.
Pivovarenko, Y. (2015) A Charge Distribution in the Earth’s Atmosphere. American Journal of Physics and Applications. 3 (3), 67-68. doi: 10.11648/j.ajpa.20150303.11.
Pivovarenko, Y. (2016) Diamagnetism Flame. Faraday Mystery. GJSFR. 16 (1), 53-55.
Kuchling, H. (1980) Physik. Leipzig: VEB Fachbuchverlag. In German.
Krasnogorskaja, N. V. (1984) Electromagnetic fields in the earth’s atmosphere and their biological significance 1, Moscow: Nauka. In Russian.
Nekrasov, B. V. (1974) General chemistry 1. Moscow: Chemistry. In Russian.
Fernandez, D. P., Mulev, Y., and Goodvin, A. R. H. (1995) A database for the static dielectric constant of water and steam. J. Phys. Chem. Ref. Data. 24 (1), 33-69.
Pivovarenko, Y. (2017) The Flight of the Balloon and the Daily Rotation of the Earth. World Journal of Applied Physics. 2 (2) 32-35. doi: 10.11648/j.wjap.20170202.12.
Fialkov, A. B. (1997) Investigation on Ions in Flames. Prog. Energy Combust. Sci. 23, 399–528.
Vincent-Randonnier A., and Teixeira D. (2008) Plasma assisted methane diffusion flame. International Journal of Plasma Environmental Science and Technology, 2 (2), 119-127.
Fridrichsberg D. A. (1974) Course of colloid chemistry. Leningrad: Chemistry. In Russian.
Pivovarenko, Y. (2015) UV Absorbance of Aqueous DNA. European Journal of Biophysics. 3 (3) 19-22. doi: 10.11648/j.ejb.20150303.11.
Bilimovich, B. F. (1981) Thermal phenomena in engineering. Moscow: Prosweschenije. In Russian.
Vonnegut B., and Little A. D. (1965) Electrical behavior of an airplane in a thunderstorm. Technical report for Federal Aviation Agency. Massachusett: Cambridge Inc.
Stevens H. (2003) Hitler's Flying Saucers: A Guide to German Flying Discs of the Second World War. Kempton, USA: Adventures Unlimited Press.