Most of the mass in an atom is found in the nucleus, which contains the protons and neutrons.
The nucleus of an atom represents most of an atom's mass.
It does have a mass.
Yes, the mass of an iron atom is different from the mass of a copper atom. The mass of an iron atom is approximately 56 atomic mass units, while the mass of a copper atom is approximately 63.5 atomic mass units. Therefore, there is a difference of about 7.5 atomic mass units between the two.
It's the mass of the atom, usually specified in atomic mass units where one amu is 1/12th the mass of a carbon-12 atom.
Mass of an atom is determined by the no. of protons+ no. of neutrons in the atom.
Mass of an atom = Mass of proton + Mass of neutron
The nucleus of an atom represents most of an atom's mass.
No. On average a sulfur atom is twice the mass of an oxygen atom.
It does have a mass.
99.9% of the mass of an atom is located in the nucleus
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Neutrons add MASS to an atom.
Yes, the mass of an iron atom is different from the mass of a copper atom. The mass of an iron atom is approximately 56 atomic mass units, while the mass of a copper atom is approximately 63.5 atomic mass units. Therefore, there is a difference of about 7.5 atomic mass units between the two.
There exists no mass less atoms. Every atom has a mass.
The atomic mass of an atom is the combined mass of the protons and neutrons in the nucleus.
It's the mass of the atom, usually specified in atomic mass units where one amu is 1/12th the mass of a carbon-12 atom.
The atomic mass of an element is measured not in the mass of the atom, but in the number of grams per mole.