TITLE:
Relativistic Quantitative Determination of the “Mysterious” Differences in the Hubble Constant
AUTHORS:
Ernst Karl Kunst
KEYWORDS:
Hubble Constant, Different Measurement Results, Earthbound and Space-Telescopes, Different Orbits, Different Hubble Constants; Symmetric Special Relativistic Origin
JOURNAL NAME:
Natural Science,
Vol.13 No.1,
January
21,
2021
ABSTRACT: This
paper discusses the “Hubble constant measurement—mystery”. Independent
measurements of this cosmic parameter, referred to as H0 in abbreviated form, have all led to different
values, with the highest value ≈ 74 km·s-1·Mpc-1 and the
lowest ≈ 67 km·s-1·Mpc-1, where km denotes kilometer, s
second and Mpc-1 megaparsec. These measurements have mainly been
obtained with space telescopes. Apparently, up to now there was no way to
explain the differences. However, previously published studies seem to regard
the problem of the different measurement results for H0 [1,2]. I have shown
that due to a symmetrical expansion of the Minkowski space (SMS), each
respective frame of reference for an observer, who rests in the zero point of
the frame, is converted into a state of apparent rest relative to the cosmic
microwave background (CMB) radiation. This SMS-relativistic effect also seems
to be responsible for the different measurement results of the Hubble constant,
especially through space telescopes.