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Space Science Journal(SSJ)

ISSN: 2997-6170 | DOI: 10.33140/SSJ

‘Development of Lunar Mass-Energy Equation to Study Dynamics of Lunar Environment to Explore Life on Moon through the Detoxification of Lunar Toxins’.

Abstract

Virendra Goswami

Sun is hot with core temperature of 6000 degrees C) & Moon is Cold with temperature of (-233 Celsius), at night, (123 Cel- sius) during the day. Because the Moon has no atmosphere to block some of the Sun's rays or to help trap heat at night. Apparently, if Solar energy is for warming then Lunar Energy should contribute to cooling. The efforts are to draw plausible correlations of Lunar Energy and its dynamics with the few parameters e. g Lunar temperature (Lt), Lunar phases (L p), Lunar angles (La) i.e degrees away from the Sun to evolve ‘GEL (Goswami-Einstein-Lunar Mass-Energy) Equation’ and develop ‘Lunar Atmospheric Models (LAM)’ Since, the Estimated Composition (particles per cubic cm) of the tenuous lunar atmosphere contains Toxic Gases viz. Methane (CH4) – 1000 & Carbon Dioxide (CO2) apart from non-toxic gases viz. Trace Oxygen (O+), Hydrogen (H2) - 35,000, Ammonia – 1000 and the inert gases along with Possible Phosphorus (P+), Sodium (Na+), Magne- sium (Mg+). Hence ,the escape of Lunar Gases through Detoxification of Lunar Toxic Gases (LTG) would help to explore life on the Moon by making its atmosphere more livable by enhancing the Oxygen content, diminishing Methane, Carbon dioxide, controlling ‘Day Lunar Warming(DLW)‘Night Lunar Cooling(NLC)& harnessing Lunar, Solar, Planetary energy, to create wa- ter & minerals through catalytic chemical processes. Further, warming of climate due to “Green House” effect of increase in Carbon-dioxide and Methane can be lessened through innovative Lunar Lasers Technology (LLT), Lunar-lasers, Lunar Panels (LP), Lunar Cooling Towers, Lunar Storage Batteries (LSB) by making use of Magnetic Refrigeration Techniques (MRT)& detoxification of Lunar toxins by innovative technologies. It aims to use Lunar Missions (LRO & ‘CHADRAYAN-2/3’) data; to evolve Lunar Science by studying Energetic of Lunar-Environment, Lunar Radiation, Lunar dust grains, Lunar exosphere, Lunar-ionosphere, Lunar's reaction to severe solar storms and human activities through (Goswami -Einstein -Lunar –Mass-En- ergy Equation) & ‘Lunar Atmospheric Models (LAM), to get Moon inhabited. To find out how do the highly variable energy& matter in the inner heliosphere affects the volatile stability, exosphere, plasma interactions, dust-migration, surface micro-struc- tures and human systems at the Moon, and how it will change with human presence by developing neutral-plasma-dust models. To explore life through plantation in the Lunar Soil using Plant Catalysts e.g. Piri Formo Sopra Indica (PFSI), ROOTONIC (mycorrhizal- multi functional fungus) and grow plants: Bryophytes, Pteridophytes, Gymnosperms for future Manned-Moon- Mission. To find formation of O3 in the atmosphere due to the series of complex photo chemical reactions energized by Moon- light and REDOX (Reduction-Oxidation to convert available Lunar Non-Toxic Gases (LNG) to plausible Oxygen & Water. The results of these investigations may be used for future Mars planet & other planetary systems to explore the possibility of life.

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