全部 标题 作者
关键词 摘要

OALib Journal期刊
ISSN: 2333-9721
费用:99美元

查看量下载量

The Trifold Universe

DOI: 10.4236/oalib.1104292, PP. 1-12

Subject Areas: Computational Physics, Theoretical Physics

Keywords: Cosmic Ray, Black Hole, Astronomy, Dark Matter, Gravity, Unified Field Theory

Full-Text   Cite this paper   Add to My Lib

Abstract

This paper studies a new concept called universal folding. The visible universe is the result of a complex invisible folding series. There are three major folds (Trifold): from the Plank length, to the radius of an electron, and finally, to the radius of universe. Each of the three-major folds follows the same folding formula. Our findings help us understand the grand architecture of the universe. The ideal average human height, city block size, city size, diameter of the continents, the diameter of the Sun, the distance between the Earth and the Sun, the radius of the solar system, the radius of the Milky Way galaxy, the average diameter of the filament of the universe, and the radius of the universe are important resonance lengths in the formula. This paper helps scientists study everything from a new angle and become aware of the architectural design of the universe.

Cite this paper

Cao, H. G. and Cao, Z. (2018). The Trifold Universe. Open Access Library Journal, 5, e4292. doi: http://dx.doi.org/10.4236/oalib.1104292.

References

[1]  Cao, Z.L. and Cao, H.G. (2013) Unified Field Theory. American Journal of Modern Physics, 2, 292-298.
https://doi.org/10.11648/j.ajmp.20130206.14
[2]  Cao, Z.L., Cao, H.G. and Qiang, W.A. (2015) Theory of Everything. Frontiers of Astronomy, Astrophysics and Cosmology, 1, 31-36.
[3]  Cao, Z.L. and Cao, H.G. (2013) Unified Field Theory and the Configuration of Particles. International Journal of Physics, 1, 151-161.
[4]  Cao, Z.L. and Cao, H.G. (2014) Unified Field Theory and Topology of Nuclei. International Journal of Physics, 2, 15-22.
https://doi.org/10.12691/ijp-2-1-4
[5]  Cao, Z.L. and Cao, H.G. (2016) Gravitational Wave and Transparent Crystal Black Hole. Open Access Library Journal, 3, e3038.
https://doi.org/10.4236/oalib.1103038
[6]  Cao, Z.L., Cao, H.G. and Qiang, W.A. (2015) Unified Field Theory and Topology of Atom. American Journal of Modern Physics, 4, 1-7.
[7]  Cao, Z.L. and Cao, H.G. (2014) Cubic Atom and Crystal Structures. International Journal of Physics, 2, 277-281.
https://doi.org/10.12691/ijp-2-6-11
[8]  Cao, Z.L. and Cao, H.G. (2014) Unified Field Theory and Foundation of Physics. International Journal of Physics, 2, 158-164.
https://doi.org/10.12691/ijp-2-5-5
[9]  Cao, Z.L. and Cao, H.G. (2013) Unified Field Theory and the Hierarchical Universe. International Journal of Physics, 1, 162-170.
[10]  Cao, H.G. and Cao, Z.L. (2013) Drifting Clock and Lunar Cycle. International Journal of Physics, 1, 121-127.
[11]  Cao, Z. and Gu Cao, H. (2013) Non-Scattering Photon Electron Interaction. Physics and Materials Chemistry, 1, 9-12.
[12]  Cao, Z. and Gu Cao, H. (2013) SR Equations without Constant One-Way Speed of Light. International Journal of Physics, 1, 106-109.
[13]  Cao, H., Cao, Z. and Qiang, W. (2015) Nuclear Lattices, Mass and Stability. Open Access Library Journal, 2, 1-22.
https://doi.org/10.4236/oalib.1101504
[14]  Myers, E.G., Wagner, A., Kracke, H. and Wesson, B.A. (2015) Atomic Masses of Tritium and Helium-3. Physical Review Letters, 114, Article ID: 013003.
[15]  Chekhovich, E.A., Hopkinson, M., Skolnick, M.S. and Tartakovskii, A.I. (2015) Suppression of Nuclear Spin Bath Fluctuations in Self-Assembled Quantum Dots Induced by Inhomogeneous Strain. Nature Communications, 6, Article No. 6348.
https://doi.org/10.1038/ncomms7348
[16]  Dong, Y., Dong, L., Gong, M. and Pu, H. (2015) Dynamical Phases in Quenched Spin-Orbit-Coupled Degenerate Fermi Gas. Nature Communications, 6, Article No. 6103.
https://doi.org/10.1038/ncomms7103
[17]  Koizumi, H., Okazaki, A., Ghantous, M.A. and Tachiki, M. (2014) Supercurrent Flow through the Network of Spin-Vortices in Cuprates. Journal of Superconductivity and Novel Magnetism, 27, 2435-2446.
https://doi.org/10.1007/s10948-014-2626-9
[18]  Tan, Z.B., Cox, D., Nieminen, T., Lahteenmaki, P., Golubev, D., Lesovik, G.B. and Hakonen, P.J. (2015) Cooper Pair Splitting by Means of Graphene Quantum Dots. Physical Review Letters, 114, Article ID: 096602.
[19]  Tan, D., Weber, S.J., Siddiqi, I., Molmer, K. and Murch, K.W. (2015) Prediction and Retrodiction for a Continuously Monitored Super-Conducting Qubit. Physical Review Letters, 114, Article ID: 090403.
[20]  Murmann, S., Bergschneider, A., Klinkhamer, V.M., Zürn, G., Lompe, T. and Jochim, S. (2015) Two Fermions in a Double Well: Exploring a Fundamental Building Block of the Hubbard Model. Physical Review Letters, 114, Article ID: 080402.
[21]  Giraud, O., Braun, D., Baguette, D., Bastin, T. and Martin, J. (2015) Tensor Representation of Spin States. Physical Review Letters, 114, Article ID: 080401.
[22]  Valderrama, M.P. and Phillips, D.R. (2015) Power Counting of Con-tact-Range Currents in Effective Field Theory. Physical Review Letters, 114, Article ID: 082502.
[23]  Phillips, D.R., Samart, D. and Schat, C. (2015) Parity-Violating Nucleon-Nucleon Force in the 1/Nc Expansion. Physical Review Letters, 114, Article ID: 062301.
[24]  Stetcu, I., Bertulani, C.A., Bulgac, A., Magierski, P. and Roche, K.J. (2015) Relativistic Coulomb Excitation within the Time Dependent Superfluid Local Density Approximation. Physical Review Letters, 114, Article ID: 012701.
[25]  Borsanyi, S., Durr, S., Fodor, Z., Hoelbling, C., Katz, S.D., Krieg, S., et al. (2015) Ab Initio Calculation of the Neutron-Proton Mass Difference. Science, 347, 1452-1455.
https://doi.org/10.1126/science.1257050
[26]  Freedman, R. and Young, H. (2004) Sears and Zemanskey’s University Physics with Modern Physics. 11th Edition, Benjamin-Cummings Pub. Co., San Francisco, 1633-1634.
[27]  Abell, G., Corwin, H. and Olowin, R. (1989) A Catalogue of Rich Clusters of Galaxies. Astrophysical Journal Supplement, 70, 1-138.
[28]  Struble, M. and Rood, H. (1999) A Compilation of Redshifts and Velocity Dispersions for ACO Clusters. The Astrophysical Journal, 125, 35-71.
https://doi.org/10.1086/313274

Full-Text


comments powered by Disqus

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133

WeChat 1538708413