Yes.
Its isotropic nature is to one part in ten thousand.
This is easy to explain with Big Bang Cosmology, impossible to explain without it.
Its minor non-isotropies match exactly what would expect if our Universe began in an inflationary manner.
Comsic Background radiation
The source of cosmic background radiation filled the entire universe.
the weakness of cosmic back ground radiation as those radiation are left over of big bangs
Primordial background radiation is in actuality Cosmic Microwave Background. To discover just what Cosmic Microwave Background theories are, visit the URL posted below:http://www.astro.ucla.edu/~wright/CMB.html
The cosmic background radiation is believed to be the remains of the radiation emitted by the Universe when it started to get transparent - when it had cooled down to a temperature of about 3000 kelvin.
The cosmic background radiation was discovered in 1964 by American radio astronomers Arno Penzias and Robert Wilson
The big bang caused the background radiation.
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.
The source of cosmic background radiation filled the entire universe.
Natural background radiation
the weakness of cosmic back ground radiation as those radiation are left over of big bangs
Backround radiation is an explosion which occured in space, which consists of radiation comming from all directions in space.
Primordial background radiation is in actuality Cosmic Microwave Background. To discover just what Cosmic Microwave Background theories are, visit the URL posted below:http://www.astro.ucla.edu/~wright/CMB.html
cosmic microwave background radiation.
radiationsThe big bang
The cosmic background radiation is believed to be the remains of the radiation emitted by the Universe when it started to get transparent - when it had cooled down to a temperature of about 3000 kelvin.
The cosmic background radiation was discovered in 1964 by American radio astronomers Arno Penzias and Robert Wilson
Then it will not emit any more radiation - except that it will eventually re-emit any radiation it receives, especially the cosmic background radiation.Then it will not emit any more radiation - except that it will eventually re-emit any radiation it receives, especially the cosmic background radiation.Then it will not emit any more radiation - except that it will eventually re-emit any radiation it receives, especially the cosmic background radiation.Then it will not emit any more radiation - except that it will eventually re-emit any radiation it receives, especially the cosmic background radiation.