I didn't check the year... But the cosmic background radiation is said to support the big bang theory, because it agrees with the radiation that is expected from an expanding Universe.
True, it strongly supported the Big bang theory.
Cosmic Microwave Background (CMB) Radiation.
The spectral energy distribution of the microwave background radiation found in the universe is that of a perfectly absorbing body (blackbody) radiating at 2.70 Kelvin.
The redshift of the cosmic microwave background radiation
Where? Everywhere. This is the residual radiation, from when the Universe was very, very hot.
microwave background radiation is a thermal radiation left from the early stage of universe when it was much small and much hotter and filled with uniformly distributed opaque fog of hydrogen plasma
cosmic microwave background radiation.
Cosmic Microwave Background (CMB) Radiation.
The spectral energy distribution of the microwave background radiation found in the universe is that of a perfectly absorbing body (blackbody) radiating at 2.70 Kelvin.
The redshift of the cosmic microwave background radiation
Where? Everywhere. This is the residual radiation, from when the Universe was very, very hot.
microwave background radiation is a thermal radiation left from the early stage of universe when it was much small and much hotter and filled with uniformly distributed opaque fog of hydrogen plasma
Cosmic Microwave Background Radiation is electromagnetic radiation left over from the events of the Big Bang. This radiation causes a very slight increase in the universe's temperature; the coldest areas of the universe will be only about 2 degrees kelvin (2 degrees above absolute zero). It is not spread in a perfectly uniform pattern, though the differences in density are very slight.
The radiation left over from the big bang is found in the microwave region of the electromagnetic spectrum. As the universe expanded and cooled, the intense hard gamma radiation that existed became radio waves in the low gigahertz region, characteristic of a temperature around 30 Kelvin.
either starlight spectra or moving galaxies.
The age of the universe is determined by CMBR, which is left over energy from the Big Bang Theory. CMBR stands for Cosmic Microwave Background Radiation.
The COBE (Cosmic Background Explorer) was important to the big bang theory because it provided very precise measurements of the cosmic microwave background radiation. These measurements confirmed the existence of this radiation and provided strong evidence for the theory of the big bang, which suggests that the universe began with a hot, dense, and expanding state. The COBE's findings supported the idea that the cosmic microwave background radiation is a remnant of the early stages of the universe.
Cosmic microwave background (CMB) radiation is a remnant of the early universe, a faint glow left over from the Big Bang. By studying the CMB, scientists can determine various properties of the universe, such as its age, composition, and rate of expansion. Over time, the CMB has cooled and stretched as the universe expanded, and analyzing its temperature fluctuations provides insights into the evolving structure and dynamics of the universe. Therefore, the CMB radiation serves as a powerful tool to understand how the universe has changed and evolved over billions of years.