Open AccessSolution To Global Warming: Sunspots, Carbon 14, And Average Temperature -- Exploding Star Events
Publication year - 2019
Publication title -
petroleum and chemical industry international
Language(s) - English
Resource type - Journals
ISSN - 2639-7536
DOI - 10.33140/pcii.02.04.04
Subject(s) - debris , supernova , sunspot , physics , global warming , planet , astrophysics , atmospheric sciences , astronomy , climatology , environmental science , climate change , meteorology , geology , oceanography , quantum mechanics , magnetic field
The formation of C14 from nitrogen by collision with a gamma ray or high energy particle in our high atmosphereis a widely accepted theory. The new yet to be recognized supernova, SN, and nova impact theory, SNIT, proposesdebris streams of high energy particles from exploding stars impact our planet and cause global warming, sunspot,and other extraordinary events. Some of the recorded C14 data must match the calculated impact times of explodingstar debris streams and a similar result occurs for sunspots. The new calculated supernova impact times in conjunctionwith two temperature plots from Dr Loehle and NOAA prove our current episode of global warming is caused by theCrab nebula or SN 1054 and is waning. The accuracy of the SNIT impact times are shown for the first time due toexact C14 data. Supernova explosions within 700 light years are very dangerous to mankind.