Sergey Simonenko_ICGG 2021

Biography
Prof. Sergey Simonenko Far Eastern Branch of Russian Academy of Sciences, Russia
Title: The Confirmed Validity of the Explanatory Aspect of the Thermohydrogravidynamic Theory Concerning the Evaluated Maximal Magnitude of the Strongest Earthquake During the Considered Intensification of t
Abstract: We present the confirmed validity of the significant explanatory aspect of the thermohydrogravidynamic theory (Simonenko, 2013; 2014) concerning the evaluated (on April 7, 2021) maximal magnitude () of the possible most strongest earthquake during the predicted (in advance in unpublished article (Simonenko, 2019b) presented on December 9, 2019 to the journal Energy Research, then presented on the 10^th International Conference on Geology and Geophysics and then finally published in the Journal of Geoscience and Environment Protection, Simonenko, 2020, 8, 351-367) intensification of the global natural processes of the Earth from December 7, 2019 to April 18, 2020 AD. To obtain the satisfactory explanation (in the frame of the thermohydrogravidynamic theory of the Earth subjected to the combined non-stationary cosmic integral energy gravitational influences (Simonenko, 2013; 2014; 2019a) of the planets (Mercury, Venus, Mars and Jupiter) and the Sun owing to the gravitational interaction of the Sun with Jupiter, Saturn, Uranus and Neptune) of the maximal magnitude M=7.7 (according to the U.S. Geological Survey) of the strongest earthquake occurred (123 km NNW of Lucea, Jamaica) on January 28, 2020 AD near the calculated (Simonenko, 2020) mean date (February 5, 2020 AD) of the probable most strongest earthquake during the considered (Simonenko, 2019b; 2020) range from December 7, 2019 to April 18, 2020 AD, we have analyzed the following strongest earthquakes (of the Earth occurred near the local maximal values of the calculated combined integral energy gravitational influences on the Earth of the planets and the Sun) occurred on (according to the U.S. Geological Survey): 1964-03-28 (M=9.2, Southern Alaska), March 11, 2011 (M=9, near the east coast of Honshu, Japan), February 27, 2010 (M=8.8, offshore Bio-Bio, Chile), April 11, 2012 (M=8.6, off the west coast of northern Sumatra), 1938-02-01 (M=8.5, Banda Sea), 1922-11-11 (M=8.5, Atacama, Chile), 2001-06-23 (M=8.4, near the coast of southern Peru) and additionally the strongest earthquakes (of the Earth occurred near the local maximal values of the calculated combined integral energy gravitational influences on the Earth of the planets and the Sun) occurred in the range from 1980 AD and before 1992 AD. Considering and analyzing the strongest earthquakes (occurred near the local maximal combined integral energy gravitational influences on the Earth of the planets and the Sun) on the plane), where is the maximal magnitude of the strongest earthquake occurred near the local maximal combined integral energy gravitational influence (for the year i) on the Earth of the planets and the Sun, is the established (Simonenko, 2019b) calculated (for the corresponding year i of the occurred strongest earthquake) normalized dimensionless numerical function (related with the local maximal and minimal combined integral energy gravitational influences (for the year i) on the Earth of the planets and the Sun), is the angle (for the strongest earthquake occurred in year i near the local maximal value of the calculated combined integral energy gravitational influence on the Earth of the planets and the Sun) between the projection of the Earth axis (of rotation) on the ecliptic plane and the approximate line (in the ecliptic plane) Earth – Sun – Jupiter (characterized by the equal angle deviations of the Earth and Jupiter from the approximate line), we have established that the dimensionless range contains only 3 strongest earthquakes (from the all analyzed strongest earthquakes) occurred on (according to the U.S. Geological Survey): 1984-02-07 (M=7.6, Solomon Islands), 1992-12-12 (M=7.8, Flores region, Indonesia) and 1994-10-04 (M=8.3, Kuril Islands). Taking into account that the strongest earthquake occurred (123 km NNW of Lucea, Jamaica) on January 28, 2020 AD corresponds to the calculated value, which belongs to the range (related with the considered above 3 strongest earthquakes), we have evaluated (based on the linear interpolation) the corresponding first magnitude (for the first combination of strongest earthquakes occurred on 1984-02-07 and on 1992-12-12) and the corresponding second magnitude (for the second combination of strongest earthquakes occurred on 1984-02-07 and on 1994-10-04) of the probable most strongest earthquake during the considered (Simonenko, 2019b; 2020) range from December 7, 2019 to April 18, 2020 AD. The mean magnitude (of the obtained magnitudes and) is in good agreement with the maximal magnitude M=7.7 (according to the U.S. Geological Survey) of the strongest earthquake of the Earth occurred on January 28, 2020 AD near the calculated (Simonenko, 2020) mean date (February 5, 2020 AD) of the probable most strongest earthquake during the predicted (Simonenko, 2019b; 2020) range from December 7, 2019 to April 18, 2020 AD. This research is based on the V.I. Lenin’s formula (given in his Materialism and Empiriocriticism): “From an abstract to the concrete, and then from the concrete to the truth” applied to the investigation of the Earth in the frame of the Solar System. References Simonenko, S. V. (2013). Fundamentals of the thermohydrogravidynamic theory of the global seismotectonic activity of the Earth. International Journal of Geophysics, 519829, 1-39. doi: 10.1155/2013/519829 Available online: http://dx.doi.org/10.1155/2013/519829 Simonenko, S. V. (2014). The prognosticating aspects of the developed cosmic geophysics concerning the subsequent forthnaloming intensifications of the global seismicity, volcanic and climatic activity of the Earth in the 21st century. British Journal of Applied Science & Technology, 4(25), 3563-3630, doi: 10.9734/BJAST/2014/10766. Available online: http://www.sciencedomain.org/issue/588 Simonenko, S.V. (2019a). The thermohydrogravidynamic theory concerning the first forthcoming subrange 2020 ÷ 2026 AD of the increased intensification of the Earth. New Horizons in Mathematical Physics, 3(2), 13-52. Available online: https://dx.doi.org/10.22606/nhmp.2019.32001 Simonenko, S. V. (2019b). The thermohydrogravidynamic theory concerning the forthcoming intensification of the global natural processes from December 7, 2019 to April 18, 2020 AD. The unpublished article submitted to Energy Research on December 9, 2019. Available online: https://www.researchgate.net/publication/345359738_SVSimonenko_to_ER_in_ITS_Manuscript_Template Simonenko, S.V. (2020). The confirmed validity of the thermohydrogravidynamic theory concerning the forthcoming intensification of the global natural processes from December 7, 2019 to April 18, 2020 AD. Journal of Geoscience and Environment Protection, 8, 351-367. Available online: https://www.scirp.org/pdf/gep_2020113013410374.pdf

Biography

Prof. Sergey Simonenko
Far Eastern Branch of Russian Academy of Sciences, Russia

Title: The Confirmed Validity of the Explanatory Aspect of the Thermohydrogravidynamic Theory Concerning the Evaluated Maximal Magnitude of the Strongest Earthquake During the Considered Intensification of t

Abstract:

We present the confirmed validity of the significant explanatory aspect of the thermohydrogravidynamic theory (Simonenko, 2013; 2014) concerning the evaluated (on April 7, 2021) maximal magnitude () of the possible most strongest earthquake during the predicted (in advance in unpublished article (Simonenko, 2019b) presented on December 9, 2019 to the journal Energy Research, then presented on the 10^th International Conference on Geology and Geophysics and then finally published in the Journal of Geoscience and Environment Protection, Simonenko, 2020, 8, 351-367) intensification of the global natural processes of the Earth from December 7, 2019 to April 18, 2020 AD. To obtain the satisfactory explanation (in the frame of the thermohydrogravidynamic theory of the Earth subjected to the combined non-stationary cosmic integral energy gravitational influences (Simonenko, 2013; 2014; 2019a) of the planets (Mercury, Venus, Mars and Jupiter) and the Sun owing to the gravitational interaction of the Sun with Jupiter, Saturn, Uranus and Neptune) of the maximal magnitude M=7.7 (according to the U.S. Geological Survey) of the strongest earthquake occurred (123 km NNW of Lucea, Jamaica) on January 28, 2020 AD near the calculated (Simonenko, 2020) mean date (February 5, 2020 AD) of the probable most strongest earthquake during the considered (Simonenko, 2019b; 2020) range from December 7, 2019 to April 18, 2020 AD, we have analyzed the following strongest earthquakes (of the Earth occurred near the local maximal values of the calculated combined integral energy gravitational influences on the Earth of the planets and the Sun) occurred on (according to the U.S. Geological Survey): 1964-03-28 (M=9.2, Southern Alaska), March 11, 2011 (M=9, near the east coast of Honshu, Japan), February 27, 2010 (M=8.8, offshore Bio-Bio, Chile), April 11, 2012 (M=8.6, off the west coast of northern Sumatra), 1938-02-01 (M=8.5, Banda Sea), 1922-11-11 (M=8.5, Atacama, Chile), 2001-06-23 (M=8.4, near the coast of southern Peru) and additionally the strongest earthquakes (of the Earth occurred near the local maximal values of the calculated combined integral energy gravitational influences on the Earth of the planets and the Sun) occurred in the range from 1980 AD and before 1992 AD.

Considering and analyzing the strongest earthquakes (occurred near the local maximal combined integral energy gravitational influences on the Earth of the planets and the Sun) on the plane), where is the maximal magnitude of the strongest earthquake occurred near the local maximal combined integral energy gravitational influence (for the year i) on the Earth of the planets and the Sun, is the established (Simonenko, 2019b) calculated (for the corresponding year i of the occurred strongest earthquake) normalized dimensionless numerical function (related with the local maximal and minimal combined integral energy gravitational influences (for the year i) on the Earth of the planets and the Sun), is the angle (for the strongest earthquake occurred in year i near the local maximal value of the calculated combined integral energy gravitational influence on the Earth of the planets and the Sun) between the projection of the Earth axis (of rotation) on the ecliptic plane and the approximate line (in the ecliptic plane) Earth – Sun – Jupiter (characterized by the equal angle deviations of the Earth and Jupiter from the approximate line), we have established that the dimensionless range contains only 3 strongest earthquakes (from the all analyzed strongest earthquakes) occurred on (according to the U.S. Geological Survey): 1984-02-07 (M=7.6, Solomon Islands), 1992-12-12 (M=7.8, Flores region, Indonesia) and 1994-10-04 (M=8.3, Kuril Islands). Taking into account that the strongest earthquake occurred (123 km NNW of Lucea, Jamaica) on January 28, 2020 AD corresponds to the calculated value, which belongs to the range (related with the considered above 3 strongest earthquakes), we have evaluated (based on the linear interpolation) the corresponding first magnitude (for the first combination of strongest earthquakes occurred on 1984-02-07 and on 1992-12-12) and the corresponding second magnitude (for the second combination of strongest earthquakes occurred on 1984-02-07 and on 1994-10-04) of the probable most strongest earthquake during the considered (Simonenko, 2019b; 2020) range from December 7, 2019 to April 18, 2020 AD. The mean magnitude (of the obtained magnitudes and) is in good agreement with the maximal magnitude M=7.7 (according to the U.S. Geological Survey) of the strongest earthquake of the Earth occurred on January 28, 2020 AD near the calculated (Simonenko, 2020) mean date (February 5, 2020 AD) of the probable most strongest earthquake during the predicted (Simonenko, 2019b; 2020) range from December 7, 2019 to April 18, 2020 AD.

This research is based on the V.I. Lenin’s formula (given in his Materialism and Empiriocriticism): “From an abstract to the concrete, and then from the concrete to the truth” applied to the investigation of the Earth in the frame of the Solar System.

References

Simonenko, S. V. (2013). Fundamentals of the thermohydrogravidynamic theory of the global seismotectonic activity of the Earth. International Journal of Geophysics, 519829, 1-39. doi: 10.1155/2013/519829 Available online: http://dx.doi.org/10.1155/2013/519829

Simonenko, S. V. (2014). The prognosticating aspects of the developed cosmic geophysics concerning the subsequent forthnaloming intensifications of the global seismicity, volcanic and climatic activity of the Earth in the 21st century. British Journal of Applied Science & Technology, 4(25), 3563-3630, doi: 10.9734/BJAST/2014/10766. Available online: http://www.sciencedomain.org/issue/588

Simonenko, S.V. (2019a). The thermohydrogravidynamic theory concerning the first forthcoming subrange 2020 ÷ 2026 AD of the increased intensification of the Earth. New Horizons in Mathematical Physics, 3(2), 13-52. Available online: https://dx.doi.org/10.22606/nhmp.2019.32001

Simonenko, S. V. (2019b). The thermohydrogravidynamic theory concerning the forthcoming intensification of the global natural processes from December 7, 2019 to April 18, 2020 AD. The unpublished article submitted to Energy Research on December 9, 2019. Available online: https://www.researchgate.net/publication/345359738_SVSimonenko_to_ER_in_ITS_Manuscript_Template

Simonenko, S.V. (2020). The confirmed validity of the thermohydrogravidynamic theory concerning the forthcoming intensification of the global natural processes from December 7, 2019 to April 18, 2020 AD. Journal of Geoscience and Environment Protection, 8, 351-367. Available online: https://www.scirp.org/pdf/gep_2020113013410374.pdf