Yes it is true. All isotopes differ in the number of neutrons only.
A neutron star is a stellar remnant
An electron has a negative charge to it, whilst a neutron has a neutral charge to it.
neutron
An electron bears a negative charge, a neutron has no charge.A neutron is about 2,000 times as massive as an electron.Neutrons exist in atomic nuclei, electrons orbit nuclei.
Hydrogen-1 isotopes have one proton and no neutrons. Hydrogen-2 isotopes have one proton and one neutron.
A neutron star is a stellar remnant
An electron has a negative charge to it, whilst a neutron has a neutral charge to it.
neutron
An electron bears a negative charge, a neutron has no charge.A neutron is about 2,000 times as massive as an electron.Neutrons exist in atomic nuclei, electrons orbit nuclei.
I suggest you do some reading on both, to get an idea what a neutron star really is, and what a supergiant is. For a start, some differences are: their diameter; their density; the fact that a neutron star no longer produces any energy.
Yes, while neutron count can differ and some properties.
There are 5 neutron in b-10, and 6 in boron-11
I suggest you do some reading on both, to get an idea what a neutron star really is, and what a supergiant is. For a start, some differences are: their diameter; their density; the fact that a neutron star no longer produces any energy.
Only the neutron number is different, same proton and electron number.
Hydrogen-1 isotopes have one proton and no neutrons. Hydrogen-2 isotopes have one proton and one neutron.
Neutrons are neutral sub atomic particles found in the nucleus of an atom (along with positively charged protons). Electrons are negatively charged sub atomic particles that are revolving around the nucleus of an atom. The mass of neutron is 1 amu and the mass of electron is about 1837 times less than that of neutron.
The expression true or false atoms is not correct. All atoms are true entities. Each isotope of an element has a different number of neutrons; the number of protons and electrons is constant for all the isotopes of an element.