Was There A Big Bang?

TL;DR

This paper challenges the big bang hypothesis by proposing that galactic red shift and cosmic microwave background signals are produced by hydrogen-dominated dark matter aggregates, offering an alternative explanation for observed phenomena.

Contribution

It introduces a model where dark matter aggregates cause red shift and microwave background radiation, providing testable alternatives to the big bang theory.

Findings

Dark matter is hydrogen-dominated with helium nodules.

Red shift results from scattering by non-radiating masses.

Microwave background is resonance radiation from cold hydrogen bodies.

Abstract

The big bang hypothesis is widely accepted despite numerous physics conflicts. It rests upon two experimental supports, galactic red shift and the cosmic microwave background. Both are produced by dark matter, shown here to be hydrogen dominated aggregates with a few percent of helium nodules. Scattering from these non-radiating intergalactic masses produce a red shift that normally correlates with distance. Warmed by our galaxy to an Eigenvalue of 2.735 K, drawn near the Earth, these bodies, kept cold by ablation, resonance radiate the Planckian microwave signal. Several tests are proposed that will distinguish between this model and the big bang.