Bubble Nucleation and Interstellar Travel
DOI:
https://doi.org/10.9734/bpi/nfpsr/v1/7622FKeywords:
Interstellar space travel, phase change, limit of superheat, boiling point elevation, viscosity, magnetic bottle, positron, antihydrogenAbstract
The ramifications of phase change equations and their potential impact on inter-stellar space travel are covered in this article. The two phase change equations have similarities but one is derived from statistical mechanics and the other from thermodynamics. The issue of propulsion in space travel is proposed to be solved by the primary equation for the limit of superheat. Two matter-antimatter systems are taken into account: hydrogen-antihydrogen and electron-positron. Antimatter must be collected and kept isolated in magnetic bottles as part of the space travel effort.
Published
2022-09-01
How to Cite
John H. Jennings. (2022). Bubble Nucleation and Interstellar Travel. New Frontiers in Physical Science Research Vol. 1, 63–71. https://doi.org/10.9734/bpi/nfpsr/v1/7622F
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