Fluid Mechanics Explains Cosmology, Dark Matter, Dark Energy, and Life

TL;DR

This paper proposes a hydro-gravitational-dynamics cosmology where dark matter consists of primordial gas planets, explaining galaxy formation, dark energy, and the emergence of life as interconnected phenomena from early universe processes.

Contribution

It introduces a novel cosmological model based on hydro-gravitational-dynamics, challenging standard dark matter and dark energy theories, and links cosmic evolution to the origin of life.

Findings

Dark matter is composed of Earth-mass primordial gas planets in PGCs.

Dark energy effects are systematic errors from evaporating dark matter planets.

Life originated in primordial oceans formed by early universe planetary mergers.

Abstract

Observations of the interstellar medium by the Herschel, Planck etc. infrared satellites throw doubt on standard {\Lambda}CDMHC cosmological processes to form gravitational structures. According to the Hydro-Gravitational-Dynamics (HGD) cosmology of Gibson (1996), and the quasar microlensing observations of Schild (1996), the dark matter of galaxies consists of Proto-Globular-star-Cluster (PGC) clumps of Earth-mass primordial gas planets in metastable equilibrium since PGCs began star production at 0.3 Myr by planet mergers. Dark energy and the accelerating expansion of the universe inferred from SuperNovae Ia are systematic dimming errors produced as frozen gas dark matter planets evaporate to form stars. Collisionless cold dark matter that clumps and hierarchically clusters does not exist. Clumps of PGCs began diffusion from the Milky Way Proto-Galaxy upon freezing at 14 Myr to give the Magellanic Clouds and the faint dwarf galaxies of the 10^22 m diameter baryonic dark matter Galaxy halo. The first stars persist as old globular star clusters (OGCs). Water oceans and the biological big bang occurred at 2-8 Myr. Life inevitably formed and evolved in the cosmological primordial organic soup provided by 10^80 big bang planets and their hot oceans as they gently merged to form larger binary planets and small binary stars.