I published the book *Some Physics United: With Predictions and Models for Much*. The abstract is …

- We address four physics opportunities. First, predict new elementary particles and forces. Second, explain phenomena such as dark matter. Third, unite physics theories and models. Fourth, point to opportunities for further research.
- We use models based on solutions to equations featuring isotropic pairs of isotropic quantum harmonic oscillators.
- First, we show solutions that match the known elementary particles. We propose that other solutions correlate with elementary particles that people have yet to detect and with dark energy forces leading to the three known eras – initial acceleration, subsequent deceleration, and current acceleration – pertaining to the rate of expansion of the universe.
- Second, we extend solutions to encompass known conservation-law symmetries. We note that extended solutions correlate with known kinematics. We propose that extended solutions describe dark matter, explain ratios of density of dark matter to density of ordinary matter, correlate with dark energy density, and explain other phenomena.
- Third, we note that the work unites, extends, and limits aspects of traditional physics. Those aspects include classical physics, special relativity, general relativity, quantum mechanics, the elementary particle Standard Model, and the cosmology timeline. The work provides possible insight regarding foundations of physics topics.
- Fourth, we suggest opportunities for people. We suggest opportunities for observational, experimental, and theoretical physics research. We point to possible opportunities to further develop and apply math we use.

I invite you to read, enjoy, learn, and extend work “Some Physics United” discusses.

I provide more information and a 60-page extract at link.

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Tags: anomalous magnetic dipole moment, arrow of time, Astrophysics, Axion, Baryon asymmetry, Baryonic matter, Black-hole thermal radiation, Beyond the Standard Model, Boson, Charge, Chirality, Clumping, CMB, Color charge, Conservation laws, Cosmic microw, beyond the Standard Model, Cosmic microwave background (CMB), cosmology, Dark Energy, Dark Matter, Elementary Forces, Elementary Particles, galaxy cluster, galaxy formation and evolution, Galaxy rotation problem, General relativity, Gravitational constant, gravity, Mathematics, Neutrino oscillations, Physics, Quantum gravity, Standard Model, supersymmetry

This entry was posted on January 8, 2018 at 2:07 am and is filed under Blogroll, Matematical Physics, Mathematics, Physics, Science, Uncategorized. You can follow any responses to this entry through the RSS 2.0 feed.
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