ABSTRACT The complex of conceptual views about ball lightning (BL) as containing surplus electrical charge quasi- stationary material foundation with distinctions between levels of translation temperature and exciting tem- peratures of chemical bonds and electron energy states has been offered and is substantiated in the paper. The being formed complex is grounded upon overstepping the limits of generally accepted physical base and is aimed at all-round substantiation of jointly observed in nature manifestations of BL. Within the limits of the being formed complex the possibility of localization of ball lightning in airspace is confirmed. The nature of the one’s radiate capacity is substantiated. The role of environment as source that feeds BL with energy is established. Power supply mechanisms, conditions and peculiarities of BL’s characteristics reproduction through lifetime are specified. The formations channels of energy resources of BL are turned out. Levels of BL’s energy potentialities, both permissibility proper and wide diapason of variation of the ones (multi-faces of ball lightning) as well as the capability of BL to overcome any barriers from dielectric materials by means of penetration through inanes in body of barriers and then to restore the one’s characteristic (octopus’s effect) are substantiated. Adequacy of being formulated conceptual views as a whole is confirmed.
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nullA. Pinchuk and V. Pinchuk, "Physics Base & Conceptual Views Complex of Ball Lightning," Journal of Modern Physics, Vol. 1 No. 4, 2010, pp. 251-275. doi: 10.4236/jmp.2010.14037.
 V. A. Pinchuk, “The Nature and Energy Sources of Ball Lightning,” Proceedings of 24th International Electric Propulsion Conference/Paper IEPC-95-233, Moscow, 19 -23 September 1995, pp. 1-11.
 V. A. Pinchuk, “Physical Basis of Cold Fusion and Prospects of its Application as Engine Power Source,” Proceedings of the 3rd International Conference on New Energy Systems and Conversions, Kazan, Russia, 8-13 September 1997, pp. 189-192.
 V. A. Pinchuk, “The Phenomenon of Ball Lightning and Cold Nuclear Synthesis,” Proceedings of the 2nd International Symposium on Energy, Environment and Economic, Kazan, Russia, 7-10 September 1998, Vol. 2. pp. 199 -213.
 V. A. Pinchuk, “Reality and the Nature of Cold Nuclear Synthesis are Justified by the Ball Lightning Existence,” Proceedings of the 4th International Conference on New Energy Systems and Conversions, Osaka, Japan, 27-30 June 1999, pp. 361-368.
 V. A. Pinchuk, “The Common Techniques Features and Prospects of Cold Nuclear Synthesis Assimilation to Needs of Power Engineering,” Proceedings of the 5th International Conference on New Energy Systems and Conversions, Shanghai, P.R. China, 22-25 August 2001, pp. 369-374.
 V. A. Pinchuk, “Physics of Material Formations with Anomalous Characteristics,” Combustion & Plasmo- chemistry, Vol. 2, No. 2, 2004, pp. 81-100 (in Russian).
 V. A. Pinchuk, “The Physics of Material Formations with Anomalous Characteristics,” Proceedings “htm” of International Conference on Exploring Innovation in Education and Research, Tainan, Taiwan, 1-5 March 2005, Paper W38, pp. 1-15.
 V. A. Pinchuk, “Once More about Anomalies Physics,” Proceedings of International Conference on Engineering Education, Gliwice, Poland, 25-29 July 2005, Vol. 2. pp. 800-814.
 A. V. Pinchuk and V. A. Pinchuk, “Chargeous Channel of Reactions Excitation on Burning,” Combustion & Plasmo-chemistry, Vol. 5, No. 4, 2007, pp. 307-319 (in Russian).
 A. V. Pinchuk and V. A. Pinchuk, “Conception: Mutation of Material Media Compositions as Process Being Exited with Chargeous Influences,” RSA Trudi Academenergo, No. 2, 2008, pp. 101-113 (in Russian).
 A. V. Pinchuk and V. A. Pinchuk, “Regarding Mutation of Media’s Compounds Mutation as of Process Being Excited by Chargeous Influences,” Bulletin of BSTU, 2008, No. 2, pp. 50-59 (in Russian).
 A. V. Pinchuk and V. A. Pinchuk, “The Formations with Surplus Charge: Nature and Influence upon Burning Process Stability,” 6th International Seminar on Flame Structure. Book of Abstracts, Brussels, Belgium, 2008, p. 60.
 A. V. Pinchuk, “Conditions of Internal Energy Equilibrium as Experimental Researches Object,” In: A. F. Utkin, ed., Proceedings of International Scientific Technical Conference “4th Utkinskie Chtenija” (Saint-Petersburg, 21-23 May 2009), Saint-Petersburg, BSTU, Vol. 2, 2009, pp. 6-9 (in Russian).
 A. I. Grigor’ev, I. D. Grigor’eva and S. O. Shirjaeva, “About Ball Lightning Stable in Relation to Own Uncompensated Charge,” Journal of Technical Physics, Vol. 65, No. 2, 1995, pp.1-10 (in Russian).
 S. Singer, “Ball Lightning Nature,” Moscow: MIR, 1973, p. 320. (in Russian).
 G. Barry. “Ball and Line Lightning,” Moscow: MIR, 1983, p. 285 (in Russian).
 V. A. Pinchuk, “Low-Temperature Plasma to External Acoustic Disturbances,” Journal of Engineering Physics and Thermophysics (JEPTER), Vol. 67, No. 1-2, 1994, pp. 781-784.
 I. S. Borovikov, “About Minimum of Entropy Working Out,” Journal of Engineering Physics and Thermophysics, Vol. 35, No. 3, 1978, pp. 415-419 (in Russian).
 B. M. Smirnov, “Ball Lightning Nature,” UFN, Vol. 116, No. 4, 1975, p. 731 (in Russian).
 S. S. Kutateladze, “Base of Heat Transfer,” Moscow-Len- ingrad Mashgiz, 1957, p. 383 (in Russian).
 I. P. Stakhanov, “Ball Lightning’s Physical Nature,” Moscow: Atomizdat, 1979 (in Russian).
 G. D. Shabanov and B. Yu. Sokolovski, “Macroscopic Division of Charge in Impulse Electrical Discharge,” Plasma Physics, Vol. 31, No. 6, 2005, pp. 560-566 (in Russian).
 G. D. Shabanov, “Lightning on the Table,” Science and Life, No. 11, 2009, pp. 38-43 (in Russian).