Pages: 108-126
Euler and applications of quantum mechanics. Paradox IH. Part 2
Authors: IVASYSHIN Henrich Stepanovich, Doctor of Engineering, Professor, Academician of Russian Engineering Academy, Head of Pskov Branch of REA, Pskov State University, Faculty of Mechanics and Machine Building, The Educational and Research Center of Innovative Tribology;
Ploschad’ Lenina, bld. 2, Pskov, 180000, Russia, e-mail: genrih.ivasyshin@yandex.ru
Extended Abstract: By some estimation, thirty percent of the gross national product of the USA depends on the applications of quantum mechanics in one or another form. Different aspects of the development of quantum theory are considered. Based on the residual stresses and relaxation of the stresses in the details of arbitrary forms the analysis of technological option of the Einstein–Podolsky–Rosen paradox interpretation is performed by the method of shaped coordination grid. The option refers to the mystery of measurement of two particles which are located far from each other but at the same time which quantum states are interconnected. The paper also regards the application of involute with variable evolute to increase working capacity of interfaces in free wheels, gearing and ribbon and rack mechanisms.
Key words: nanotechnology, quantum mechanics, structure of matter, the management of friction, deployment, the quantum state, particle, the momentum, the position of the detector, measurement, elastic aftereffect, the relaxation, the residual voltage grid, using involute gears, variable evolute, free-wheeling clutches, tooth gears, spiral-and-rack-driven mechanisms.
References:
1. Ivasyshin H.S. Nauchnye otkrytija v mikro- i nanotribologii [Scientific discoveries in micro- and
nanotribology]. Mezhotraslevoj al’manah. Delovaja slava Rossii. Moscow, Slavitsa, 2007. Iss. 3,
p. 47–48.
2. Сooper L. Fizika dlja vseh [Physics for everybody]. Moscow. Mir, 1974. 384 p.
3. McClintock F., Argon A. Deformacija i razrushenie materialov [Deformation and destruction of metals]. Translated from English. Moscow, Mir, 1971, 444 p.
4. Okhanyan Kh. Einshtein: nastojashhaja istorija velikih otkrytij [Einstain: The true history of great discoveries]. Translated from English. Moscow, Eksmo, 2009. 284 p.
5. Cholakov V. Nobelevskie premii. Uchjonye i otkrytija [Nobel rewards. Scientists and discoveries]. Moscow, Mir, 1986. 368 p.
6. Ivasyshin H.S., Seregin А.А., Tokarev О.V., Kazantsev S.Y. Mufta svobodnogo hoda [Free wheeling sleeve]. № SU 1479753 A1 МКИF16 D41/06, 1989. Bul. № 18.
7. Ivasyshin H.S., Seregin А.А., Blinov D.S. Zubchataja peredacha [Gearing]. № SU 1471023 A1
МКИF16 H55/08, 1989. Bul. № 13.
8. Ivasyshin H.S. Trehkulachkovyj samocentrirujushhij patron [Three-jaw self-centering chuck].
№ SU984704A1 МКИВ23В31/16, 1982. Bul. № 48.
9. Ivasyshin H.S., Paryshkura M.I., Seregin А.А. Spiral’no-shlifoval’nyj stanok [Spiral grinding machine]. № SU 1288028A1 МКИ В24В17/02. 1987. Bul. № 5.
10. Ivasyshin H.S. Sposob opredelenija relaksacii ostatochnyh naprjazhenija v detaljah [The method for determination of residual tension relaxation in parts]. NSU 328324 AIM K H GOl B5/30. 1972. Bul. № 6.
11. Ivasyshin H.S. Scientific discoveries in micro- and nanotribology. Phenomenological fundamentals of quantum friction theory. Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2010, Vol.2, № 4, pp. 70–86. URL: http // www.nanobuild.ru
12. Ivasyshin H.S. Scientific discoveries in micro- and nanotribology and helium wear. Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2011, Vol. 3, № 3, pp. 49–66. URL: http // www.nanobuild.ru
13. Ivasyshin H.S. Quantum way to the new era of entropy measurements. Applications of quantum mechanics. Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2012, Vol. 4, № 4, pp. 85–101. URL: http // www.nanobuild.ru
14. Ivasyshin H.S. Quantum way to the new era of entropy measurements. Applications of quantum mechanics. Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2012, Vol. 4, № 5, pp. 85–98. URL: http // www.nanobuild.ru
15. Ivasyshin H.S. Physical and mechanical properties of nanomaterials and quantum mechanics. Nanotehnologii v stroitel’stve = Nanotechnologies in Construction. 2013, Vol. 5, № 3, pp. 45–55. URL: http // www.nanobuild.ru
