A Theory of Gravitational Generation to Mitigate Space-Induced Low Gravity – Relevance to Premature Aging in Space

Abstract

Artificial gravity is among the key goals for successful long-term space exploration. Over the last century, several possible theoretical models have been proposed. As far as we are aware, use of centrifugal rotation is the only major form of artificial gravity that has been significantly tested. There are disadvantages to this system including the high degree of speed needed to produce a force to recapitulate earth’s gravitational field. We tested the potential efficacy of diamagnetic levitation as a form of artificial gravity. This study capitalized on its unique capacity to uphold desired aesthetic attributes while adjusting gravitational forces per specific conditional requirements. The model emphasized on methods by which diamagnetic levitation negate the detrimental consequences of prolonged weightlessness on human physiology, leading to premature age. By offering a detailed exploration of the potential of diamagnetic levitation and its implications, this research contributes to a deeper understanding of the critical role of the potential for artificial gravity on long-term visit to space. The findings and insights presented herein serve as a valuable resource for future space missions and the development of space habitation technologies, guiding interdisciplinary scientists towards the realization of safer, healthier, and more sustainable human ventures beyond earth’s confines. We discussed the positive impact on premature aging for long-term habitation in space.