Evidence for hydro - gravitational structure formation versus cold dark matter hierarchical clustering cosmology and Jeans 1902

Observations are compared to conflicting predictions about self gravitational structure formation by the hydro-gravitational theory (HGT) of Gibson 19962003 versus cold dark matter hierarchical clustering cosmology (CDMHCC) and the Jeans 1902 criterion. According to HGT, gravitational structures form immediately by fragmentation after mass-energy equality at 30,000 years when viscous and weak turbulence forces first balance gravitational forces within the horizon LH ≡ ct < LJ = c/[3ρG], where c is light speed, t is time after the big bang, ρ is density, and G is Newton’s constant, contrary to the Jeans 1902 criterion. Buoyancy forces fossilize the 10 s rate-of-strain and the 10 kg m baryonic density, and the non-baryonic dark matter (NBDM) diffuses into the voids rather than condensing to form the cold dark matter (CDM) objects required by CDMHCC. From HGT, supercluster-mass to galaxy-mass fragments exist at the plasma to gas transition when these fragment to form proto-globular-star clusters (PGCs) and planetary-mass primordial-fog-particles (PFPs): the baryonic dark matter of the interstellar medium and galaxy-dark-matter-halos from which all planets and stars are formed by accretion (Gibson 1996, Schild 1996). Center for Astrophysics and Space Sciences, UCSD