Earth Science Needs Thorough Introspective Analysis and Renovation

Geology, Earth & Marine Sciences Pub Date : 2021-08-28 DOI:10.31038/gems.2021334

S. Sen

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Abstract

Despite several breakthrough discoveries, earth science needs modification especially related to its deeper parts of the planet where temperature and pressure have been presumed to be high. Based on the concept of earth’s expansion, the author considers that the mantle of the unexpanded ocean-less earth was considerably fluid owing to incorporation of ocean-forming water. In such a globe gravitational pull from an extraterrestrial planetary body would cause expansion triggered by swelling up of the semi-fluid mantle and consequent formation of a number of expansion cracks on the crust. Through these cracks or mid-oceanic ridges extensive molten magma would expel out and deposit on both sides of the crack to form ocean basins. Matching thickness of the earth’s fluid outer core with the extent of expansion points out that owing to massive expansion original core-mantle conjunction of the planet was ruptured along which a void zone, identified as outer core of the prevalent concept, was gradually opened up. Such disposition of occurrence of two discrete geospheres separated by a virtually void zone would give rise to the phenomenon of reverse gravity in the deep interior of the planet thereby sustaining a low pressure and low temperature zone at depth.

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地球科学需要彻底的内省分析和革新

尽管有一些突破性的发现，但地球科学需要改进，特别是与地球深处有关的部分，那里的温度和压力被认为很高。根据地球膨胀的概念，作者认为未膨胀的无大洋地球的地幔由于加入了造海水而具有相当大的流动性。在这样一个地球上，来自外星行星体的引力会引起膨胀，引发膨胀的是半流体地幔的膨胀，随后在地壳上形成许多膨胀裂缝。通过这些裂缝或洋中脊，大量熔融岩浆会喷出并沉积在裂缝的两侧，形成海洋盆地。地球流体外核的厚度与膨胀程度的匹配表明，由于大膨胀，地球原有的核幔结合被破裂，沿此破裂形成了一个空洞区，即流行概念中的外核。这种由实质上的空洞区隔开的两个离散的地球圈的分布将在行星的深处产生反向重力现象，从而在深处维持一个低压和低温区。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Geology, Earth & Marine Sciences

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