It is estimated that there are 10^12 galaxies in the universe, each with about 10^12 stars. Each star has an average of 10^57 hydrogen atoms; using these estimates, the number of particles in the universe would be about 10^82.
Googolplex. However it is useless to science because it exceeds the number of particles in the universe!
One of the largest is called Graham's Number, which has so many digits that it can only be expressed as "powers of powers of powers". The last ten digits of Graham's number are ...2464195387. But the observable universe is too small to contain a written representation of the whole number, even if the digits were of subatomic size. It is many orders of magnitude greater than the number of elementary particles in the known universe.
(10)100,000,000,000 = a ' 1 ' followed by 100,000,000,000 zeros. I have no idea whether that number even has a name. It's of no use or interest to anyone except people who play with numbers. It's more than the total number of sub-atomic particles in the universe, and way more than the volume of the universe in cubic millimeters.
The moles are converted into a number of particles by multiplying 6.02 by 10(with the power of 23)
Helium accounts for around 8% of the volume of all matter (baryonic particles) in the universe.
Particles in the universe
Googolplex. However it is useless to science because it exceeds the number of particles in the universe!
Since all matter in the universe is composed of particles, one might say that the purpose of particles is to give us a more interesting universe.
infinite
Neutrons
The Wikipedia lists an estimate of 10 to the power 80 hydrogen atoms for the observable Universe. The total number of particles would be somewhere in that order, depending on what "particles" you are thinking of.
The universe isn't s fabric. The universe is mostly just vaccum, which is like air but with absolutley no particles. My guess is that the 'fabric' of the universe is space-time.
Universe is not a number. it is simply everything that was ever created.
The idea is to learn how the Universe works. Scientists hope that with higher energies, new kinds of particles will be discovered, and that these could give more clues about how the Universe works.
Not in any meaningful way. There are certainly subatomic particles but they do not behave in the same manner as the universe we observe.
Basically, the particles in the Milky Way have been present from the time of the creation of the Universe, i.e., from the Big Bang.
It is made of atoms, ions, fundamental atomic particles.