The neutron star hasn't atoms.
Because the atoms inside the neutron star are squashed together to the point that they cannot move anymore, for example a teaspoon of neutron is about 90,000,000 tonnes. So basicly pretty much anything in the universe isn't as dense as that. hope this helps.
The very definition of a black hole is a stellar body dense enough to have an escape velocity greater than that of light -- in other words, light that comes close enough to its event horizon will be trapped around it forever. If a star dies and it has enough mass to be compressed to a high-enough mass-to-radius-squared ratio to have such a high escape velocity, then a black hole will result. Otherwise, it will become a neutron star -- extremely dense, to be sure, but not dense enough to trap light, and therefore not as dense as a black hole.
The black hole is infinitely more dense than a neutron star. The neutron star is something like the mass of upto 2.3 suns compressed into a ball a dozen or so kilometers in diameter. That makes the neutron star about as dense as the nucleus of an atom. Really dense stuff. Like a couple of million pounds per cubic inch, maybe. The density of the neutron star varies from "less" near the surface to many times "more" near the center. But the black hole has infinite density. That makes it infinitely more dense than a neutron star. A teaspoon of neuton star has more mass than the entire human population
yes solids are made from atoms. atoms are every were.
The job of the neutron is to "donate" mass to what is called mass deficit during the fusion process that creates heavier atomic nuclei from lighter ones. During fusion, all the nucleons that are being fused give up a little mass, and this mass is converted into binding energy, or nuclear glue, to hold the nucleus together. You'll recall that the positively charged protons want to push everything apart because like charges repel each other. But in fusion, neutrons are always present to "add to the mix" and "chip in" with a little mass to generate the nuclear binding energy. In fact, neutrons could be said to have no other purpose. That's because a neutron that is unbound is unstable and will decay into a proton and an electron. Use the link below to the related questions on WikiAnswers.
we can not add neutron
The amount of matter is conserved.
True
Chemical reactions involve the rearrangement of atoms, not the production or destruction of atoms. The total number of atoms present before a reaction must be the same as the total number of atoms after the reaction is complete, due to the law of conservation of mass.
Neutron
They are neutral.
Atoms consist of electron(s), proton(s), and neutron(s), with the exception of hydrogen-1, which doesn't have any neutron.
Since a neutron has mass, adding a neutron to an atomic nucleus increases the atom's mass.
yes they are what makes up the atom
Adding a neutron to an atom's nucleus increases the atom's mass by the mass of the neutron itself. Neutrons are more massive than protons, so adding a neutron will increase the atom's total mass without changing its charge.
Neutrons are found in the center of atoms.
neutron