Abstract
The article presents (on 28 February, 2017) the prediction (made on 25 February, 2018) of the established global prediction thermohydrogravidynamic principle (of the developed thermohydrogravidynamic theory containing the cosmic geophysics and the cosmic seismology based on the author’s generalization of the first law of thermodynamics for non-stationary cosmic gravitation of the Solar System and our Galaxy) concerning the first subrange (in 2018) of the strongest intensifications (since 26 February and before 24 August, 2018) of the global seismotectonic, volcanic, climatic and magnetic processes of the Earth determined by the minimal (in 2018 near 26 May, 2018) combined integral energy gravitational influence on the internal rigid core of the Earth (and on the Earth as a whole) of the planets (Mercury, Venus, Mars and Jupiter) and the Sun due to the gravitational interactions of the Sun with Jupiter Saturn, Uranus and Neptune. The prediction is based on the established global prediction thermohydrogravidynamic principle (used for the considered real planetary configurations of the Earth and the planets of the Solar System during the range 2004 ÷ 2018) and on the statistical analysis of the previous strongest earthquakes occurred near the calculated dates of the local minimal combined planetary and solar integral energy gravitational influences (during the range 2004 ÷ 2017) on the internal rigid core of the Earth.
Highlights
We expanded the application of the thermohydrogravidynamic theory [2,3,4, 7, 8, 13,14,15] on the rotational coordinate system [16] (“for evidence of the tidal mechanism of maintenance of the energy and viscous-thermal dissipative turbulent structure of the mesoscale oceanic eddies” [16]), that gives the possibility to expand the thermohydrogravielectromagnetic theory [8, 13, 17] of the controlled thermonuclear reactions [13, 18,19,20] on the rotational coordinate system related with the rotating Earth
We concluded [8, 15, 23] (based on the generalized formulation (1) of the first law of thermodynamics used for the internal rigid core τc,r of the Earth) that the maximal intensifications of the established thermohygrogravidynamic processes are related with the corresponding maximal intensifications of the global and regional natural processes of the Earth
Determining the maximal temporal intensification near the time moment t t of the thermohydrogravidynamic processes [8, 15] in the internal rigid core τc,r and in the boundary region τrf between the internal rigid core τc,r and the fluid core τc,f of the Earth, we predicted in advance the forthcoming ranges of the active forthcoming intensifications of the global natural processes of the Earth since 18 July, 2017 [23, 33] and before 26 February, 2018 [23, 33]
Summary
The predictions of the strongest seismotectonic [1,2,3,4], volcanic [4, 5], climatic [4, 6, 7, 8] and geomagnetic [9,10,11,12,13] processes of the Earth are the urgent problems [8, 14, 15] for humankind before the founded [8, 15] increased intensifications (during the ranges 2020÷2026 [8, 15], 2037.38÷2043.38 [8, 15] and 2055÷2064 [15]) of the global natural (seismotectonic, volcanic, climatic and magnetic) processes [8, 15] of the Earth.
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