Author : Bogdan Jacek Góralski
Publisher : Bogdan Góralski
Page : 32 pages
File Size : 41,77 MB
Release : 2021-11-08
Category : Art
ISBN :
Book Description
New climatic theory The temperature of the interior of Earth is sustained by the constant friction between the COATING of Earth and its LIQUID CORE. The coating of Earth, consisting of the crust and the upper mantle, is rotating under the influence of the alternating impact of the solar system and is rubbing against a liquid, metallic Earth's outer core, which is a spherical sliding surface for Earth's coating. The solid metallic inner core of Earth is in the grip of the magnetic field of the Sun, which alternates according to the pulse of gravity within the solar system. We see that the movements of the masses within Earth's geoid are coupled with internal interactions within the solar system, which are also subject to the influence of our galaxy. Changes in Earth's climate (which are dependent mainly on the heating of its surface) are evidence that Earth's coating moves in relation to its core. Climate change resulting from the tilt of the globe in relation to the Sun causes the succession of the seasons. On top of this are circular movements of Earth's coating caused by gravitational forces in 2 the Solar System. Movements of the coating are mirrored by the changes in the position of magnetic poles, which are fixed in their location against the Sun. Throughout the duration of several thousand years, the magnetic poles travel seemingly on the moving surface of Earth along a curve surrounding the geographical poles. Deviations of the north magnetic pole from the north geographic pole reach over twenty degrees of latitude, i.e., approximately 2500km, and change over time (probably) on a regular basis, ie. determined by cyclical interactions within the solar system. The research of paleomagnetism show deviation of the northern magnetic pole from the north geographic pole (the axis of rotation of Earth) mirrors the movements of Earth's coating in relation to the Sun. Sometimes the movement of the Earth's coating reaches the extent that magnetic poles reverse themselves. Movements of Earth's coating change the moment of inertia of the Earth, which causes the variation of the speed of rotation. An increase in the speed of rotation of Earth was observed during the moments when the northern magnetic pole was crossing near the north geographic pole, and vice versa, ie. for example, around the year AD 1600. I suppose that this reflects the variability of the Earth's coating movement in relation to its center of gravity and in relation to the Sun. Deviations over twenty degrees latitude of the northern magnetic pole NMP- from the north geographic pole, and the apparent circular motion of NMP around the geographic pole, mirror the moves of Earth's coating, which cause regional changes in Earth's climate. The width of climatic zones designated by the seasons on Earth's surface reaches about 5 to 20 degrees latitude. Related to these zones, rainy and dry climates, which are dependent on latitude and insolation, move along the surface of Earth, together with Earth's coating movements, which are cyclical relative to the Sun. If the coating of Earth moves about 2500 km, which is about 20 degrees latitude, climate zones shift respectively. In such a case, a given region of Earth can experience a dry season instead of a rainy season, and vice versa. For example, the shift of precipitation from summer to winter, observed in Iran for the past several thousand years, is one of the results of the movement of Earth's coating. Earth is flattened at the poles, and when Earth's coating rotates, this flattening moves closer to the equator. That is when the moment of inertia of Earth's rotation increases 3 and its speed of rotation decreases. When Earth's coating returns to its equilibrium position (which is when both magnetic and geographic poles are next to each other), the speed of Earth's rotation increases because the moment of inertia decreases. There was an increase in the frequency of earthquakes in the Mediterranean and in Poland during periods of large shifts of Earth's coating, i.e., up to 7000km in the years AD 250-700 and 1250-1860. Currently, the magnetic pole moves eastward toward the geographic pole, increasing the speed of Earth's rotation. This demonstrates that Earth's coating is returning to the equilibrium position. What will be the next moves of the magnetic pole and Earth's coating, and what will they bring? Cyclical waves of growth in the number of earthquakes in the Mediterranean and Poland observed in the period 750 BC to AD 2000 confirm the movements of Earth's coating. The number of earthquakes rises when the Mediterranean region moves closer to the equator, where the tectonic stress is increased. This is exactly what we are currently observing in Italy. The ceaseless movement of Earth's coating, causing cyclical and regional climate changes, causes the birth, rise, and fall of civilizations and empires developing from east to west (in agreement with the movement of Earth's coating and climate zones) in the history of Indo-European and Asian civilizations. Other consequences of the cyclical movement of the coating of Earth are described in the available online Polish book entitled "Historia naturalna i zmiany klimatu". Warsaw, November, 11th 2016 20:12 Bogdan Jacek Góralski