Abstract
Earthquakes, volcanic eruptions, fireballs are here discussed with, again, explanation on why fireballs obey to strict physical rules and demonstration that they are among other things the definitive explanation of the collapse of the Maya civilization in what was actually a sudden obliteration by a cluster of fireballs. Extractive development (what has been defined already by Acemoglu and Robinson) is what natural disasters come to rebalance ; extractive development leads to over-accumulation of typically weighty resources in a small area where they disrupt the crust and also represent particularly attractive beacons for fireballs. This is carefully demonstrated over a wide range of time with many examples.
Highlights
Summarizing Earlier WorkA meteor procession occurred recently in Chiloe, Chile, with very small bolides impacting the ground
The “meteor processions” are a phenomenon simple to understand when applying the general frame already presented by the author [1]
Antigravitons, the main matter of black holes, are attracted by each other in addition to being attracted by gravitons
Summary
A meteor procession occurred recently (end of Sept. 2019) in Chiloe, Chile, with very small bolides impacting the ground. 2019) in Chiloe, Chile, with very small bolides impacting the ground Another well-known occurrence is the Great Meteor Procession of 1913. Smaller objects shot at slow velocities will not have a group of antigravitons surviving inside and do no wrap on themselves but solely bend in the back due to the remaining forces of the black hole from which they erupted, much flatter forms - for instance Oumuamua, or with at best a small nuclear supercriticity of the heavy actinides in the middle of the sandwich, where density after bending is bigger, the „UFO shape“ due to the magma bubble left out by the small supercriticity ; bigger objects retaining a small black hole present a round shape and a ridge, like for instance Iapetus) Black holes are the cradle of heavy atoms which they produce in permanence through the fusion of lighter elements under extremely intense pressures, coming to extremely heavy atoms; chain reactions due to some free neutrons slowly moving in the black hole sometimes happen (as the neutrons move extremely slowly due to the hyperstrong levels of pressure, the chain reaction eliminates solely isotopes which have a high cross section for fission solely with slow neutrons, such as U235, and not U238, the typical ratio) and can manage to break the equilibrium, the supercriticity liberating some groups of heavy atoms together with some antigravitons around which they wrap themselves (formation of stars, planets, moons... smaller objects shot at slow velocities will not have a group of antigravitons surviving inside and do no wrap on themselves but solely bend in the back due to the remaining forces of the black hole from which they erupted, much flatter forms - for instance Oumuamua, or with at best a small nuclear supercriticity of the heavy actinides in the middle of the sandwich, where density after bending is bigger, the „UFO shape“ due to the magma bubble left out by the small supercriticity ; bigger objects retaining a small black hole present a round shape and a ridge, like for instance Iapetus)
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