Theory that Predicts and Explains Data about Elementary Particles, Dark Matter, Early Galaxies, and the Cosmos

viXra Pub Date : 2020-05-29 DOI:10.20944/preprints202005.0468.v1
T. J. Buckholtz
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Abstract

We develop and apply new physics theory. The theory suggests specific unfound elementary particles. The theory suggests specific constituents of dark matter. We apply those results. We explain ratios of dark matter amounts to ordinary matter amounts. We suggest details about galaxy formation. We suggest details about inflation. We suggest aspects regarding changes in the rate of expansion of the universe. The theory points to relationships between masses of elementary particles. We show a relationship between the strength of electromagnetism and the strength of gravity. The mathematics basis for matching known and suggesting new elementary particles extends mathematics for harmonic oscillators.
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预测和解释基本粒子、暗物质、早期星系和宇宙数据的理论
我们发展和应用新的物理理论。该理论提出了尚未发现的特定基本粒子。该理论提出了暗物质的特定成分。我们应用这些结果。我们解释了暗物质与普通物质的比例。我们提出了星系形成的细节。我们建议有关通货膨胀的细节。我们提出了关于宇宙膨胀速率变化的一些方面。该理论指出了基本粒子质量之间的关系。我们展示了电磁强度和重力强度之间的关系。匹配已知和建议的新基本粒子的数学基础扩展了谐振子的数学。
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