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No, a neutron is slightly more massive than a proton. Both particles have roughly the same mass, but due to the different composition of their internal quarks, the neutron is slightly heavier.
No, a neutron does not have a positive nor a negative charge. Its in between, too many neutrons can cause radiation, like cobalt-60 the number at the end tells you how much neutrons are in the atom.
A neutron has no charge, as it is electrically neutral.
The nucleus is far more massive than the electron cloud. The mass of the electron cloud is almost negligible compared to that of the nucleus.
The abbreviation for neutron is "n".
No, a neutron is much more massive.
an electron is much lighter than a proton or neutron.
A white dwarf is much larger than a neutron star.
A neutron has an approximated weight of 1 a.m.u. (the standard unit for atomic mass measurement).
456 pounds
About 1/1800.
No, a neutron is slightly more massive than a proton. Both particles have roughly the same mass, but due to the different composition of their internal quarks, the neutron is slightly heavier.
A neutron has approximately the same mass as a proton. Electrons have much lower mass.
Heavy is a nebulous term. Neutron Stars would weigh no more than any other object of equivalent mass. (One ton of feathers weighs as much as one ton of bricks.) The difference is that neutron stars are much denser than most other forms of matter. This increased density comes from the fact that neutron stars are created from the collapse of a much larger star into a much smaller space on account of gravity.
Some massive stars will become neutron stars. When massive stars die they will either become neutron stars or black holes depending on how much mass is left behind.
The masses of all three particles are different The masses of a proton and the mass of a neutron are very close, however. The mass of an electron is much smaller than the mass of a proton or neutron.
One neutron is approximately equal in mass to one proton. Since an electron is much smaller in mass compared to a neutron or a proton, it would take a large number of electrons to equal the mass of one neutron.