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Cosmic Redshift, Temperature, Growth Rate and Age in Stoney Scale Black Hole CosmologyDOI: 10.4236/oalib.1100613, PP. 1-17 Subject Areas: Theoretical Physics, Quantum Mechanics Keywords: Mach’s Principle, Stoney Mass, Black Hole Cosmology, Cosmic Growth Index, Cosmic Growth Rate, Hubble Potential, Cosmic Redshift, Cosmic Age, MOND & Galactic Rotational Curves Abstract
Throughout
the cosmic evolution, currently believed cosmic “critical density”
can be shown to be a default result of the “positively curved” light speed
rotating black hole universe “mass density”. As there is no observational or
experimental evidence to Friedmann’s second assumption, the density classification
scheme of Friedmann cosmology must be reviewed at fundamental level and possibly
can be relinquished. With cosmic light speed rotation galactic rotational curves
can be understood. The observed cosmic redshift can be reinterpreted as an index
of “cosmological” thermodynamic light emission mechanism. Clearly speaking during
cosmic evolution, at any time in the past, in hydrogen atom—emitted photon energy
was always inversely proportional to the cosmic temperature. Thus past light emitted
from older galaxy’s excited hydrogen atom will show redshift with reference to the
current laboratory data. Note that there will be no change in the energy of the
emitted photon during its journey from the distant galaxy to the observer. Past
high cosmic temperature may be the root cause of observed super novae dimming. By
considering the “Stoney mass” as the initial mass of the baby cosmic black hole,
past and current physical and thermal parameters (like angular velocity, growth
rate, age, redshift, thermal energy density and matter density) of the cosmic black
hole can be understood. For a past cosmic temperature of 3000 K, obtained redshift
is 1100. From now onwards, CMBR temperature can be called as “Comic Black Hole’s
Thermal Radiation” temperature and can be expressed as “CBHTR” temperature. Current
cosmic black hole is growing at a rate of 14.66 km/sec in a decelerating mode. In
view of the confirmed zero rate of change, the current CMBR temperature (from satellite
data) and zero rate of change in the current Hubble’s constant (from satellite data),
it can be suggested that, current cosmic expansion is almost all saturated and at
present there is no significant cosmic acceleration. From microscopic physics
point of view, can be considered as a
true index of future cosmic rate of expansion. Seshavatharam, U. V. S. and Lakshiminarayana, S. (2014). Cosmic Redshift, Temperature, Growth Rate and Age in Stoney Scale Black Hole Cosmology. Open Access Library Journal, 1, e613. doi: http://dx.doi.org/10.4236/oalib.1100613. References
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