Yes, the distribution and movement of galaxies in galactic clusters provide evidence for the big bang theory. The observation of cosmic microwave background radiation, galaxy redshift, and the uniform expansion of the universe within these clusters all support the theory of the universe originating from a hot, dense state and expanding over time.
For sure - galactic clusters. Expansion of the universe is demonstrated via the redshift of galactic clusters (outside of the local galactic cluster which hosts the Milky Way galaxy). Pulsars may also provide some insight into expansion via the emission of their light signatures, but it is not generally considered a specific support (in and of itself).
No
Hubble constant (galactic red shifts)3K microwave background radiationlight element/isotope ratios (i.e. hydrogen, deuterium, helium, lithium)
A spectroscope can be used to analyze the light emitted or absorbed by celestial objects. In the context of the Big Bang theory, spectroscopic observations of distant galaxies reveal redshifted light due to the expansion of the universe, providing evidence for the theory's predictions. This supports the idea that the universe is expanding and supports the Big Bang theory.
The work provided even more additional evidence to support the Big Bang theory of the universe.It was also regarded as the starting point for cosmologyas a precision science.
For sure - galactic clusters. Expansion of the universe is demonstrated via the redshift of galactic clusters (outside of the local galactic cluster which hosts the Milky Way galaxy). Pulsars may also provide some insight into expansion via the emission of their light signatures, but it is not generally considered a specific support (in and of itself).
No
Hubble constant (galactic red shifts)3K microwave background radiationlight element/isotope ratios (i.e. hydrogen, deuterium, helium, lithium)
A spectroscope can be used to analyze the light emitted or absorbed by celestial objects. In the context of the Big Bang theory, spectroscopic observations of distant galaxies reveal redshifted light due to the expansion of the universe, providing evidence for the theory's predictions. This supports the idea that the universe is expanding and supports the Big Bang theory.
The Theory of Relativity was created by Einstein, not by Eisenstein. Comment: The most obvious thing is that Einstein's equations predicted that the Universe was not "static". So a "Big Bang", expanding Universe fits the theory.
The work provided even more additional evidence to support the Big Bang theory of the universe.It was also regarded as the starting point for cosmologyas a precision science.
Cos it is an amazing tv show
Discard it all.
Hello i am minakshi answer is that the big bang theory is an example of old scientific theory as big bang theory explains that there was an explosion but the isotropy and the homogenity of the universe is not explained by big bang theory to explain his we connect inflatation theory with big bang theory to explain it so the big bang theory is also an example of old scientific theory.
it seems to support the big bang theory, but the Bible says that God stretches out the heavens and this discovery supports that
The 1964 discovery of cosmic microwave background radiation supported the Big Bang theory of the universe. This radiation is considered a remnant of the early stages of the universe when it was hot and dense, aligning with the predictions of the Big Bang model.
Note that it also helped support the theory of inflation. The reason is that the observed radiation very closely matched what was expected from the theory.