TITLE:
The Basics of Flat Space Cosmology
AUTHORS:
Eugene Terry Tatum, U. V. S. Seshavatharam, S. Lakshminarayana
KEYWORDS:
Flat Space Cosmology, Cosmic Inflation, Dark Energy, Hubble Parameter, Critical Density, Angular Velocity, Light Speed Expansion, Light Speed Rotation, Redshift, Universe, CMBR
JOURNAL NAME:
International Journal of Astronomy and Astrophysics,
Vol.5 No.2,
June
11,
2015
ABSTRACT: We present a new
model of cosmology which appears to show great promise. Our flat space cosmology
model, using only four basic and reasonable assumptions, derives highly
accurate Hubble parameter H0,
Hubble radius R0 and total
mass M0 values for our observable
universe. Our model derives a current Hubble parameter of
, in excellent
agreement with the newly reported (lower limit) results of the 2015 Planck
Survey. Remarkably, all of these derivations can be made with only these basic
assumptions and the current CMB radiation temperature
. The
thermodynamic equations we have generated follow Hawking’s black hole
temperature formula. We have also derived a variety of other useful cosmological
formulae. These include angular velocity and other rotational formulae. A
particularly useful hyperbolic equation,
, has been
derived, which appears to be an excellent fit for the Planck scale as well as
the current observable universe scale. Using the flat space Minkowski
relativistic formula for Doppler effect, and a formula for staging our cosmological
model according to its average mass-energy density at every Hubble time
(universal age) in its expansion, a persuasive argument can be made that the
observable phenomena attributed to dark energy are actually manifestations of
Doppler and gravitational redshift. Finally, a theory of cosmic inflation
becomes completely unnecessary because our flat space cosmology model is always
at critical density.