When the number of electrons and neutrons are the same, it means that the number of protons will also be the same amount. For example a nitrogen atom has 7 electrons and 7 neutrons, this means that the number of protons will also be 7.
Neutrons and electrons are both subatomic particles found in atoms. They both carry an electric charge - neutrons are neutral, while electrons have a negative charge. They play important roles in determining the properties and behavior of atoms.
They are not. Neutrons are much larger and more massive than electrons and have no charge whereas electrons are much smaller and have a negative charge. Neutron are found in the nucleus of an atom and electrons are found "orbiting" the nucleus.
---------They are all alike because they all are located in an atom or around an atom=P
they are both particles of an atom
the size
The main difference between isotopes of the same element is the number of neutrons in the nucleus. Isotopes have the same number of protons and electrons but different numbers of neutrons, which affects their atomic mass.
Electrons are negatively charged, smaller than neutrons and protons, and orbit around the nucleus. Neutrons have no charge, are about the same size as protons and are found in the nucleus. Protons have a positive charge, are about the same size as neutrons and are found in the nucleus.
The number of protons (and electrons in a neutral atom) is identical. The number of neutrons is different for each isotope.
No. The essence of an isotope is that all isotopes have the same number of protons in the nucleus, and thus the same number of electrons. What varies is the number of neutrons in the nucleus.
For the commonest isotope there are 42 protons , 42 electrons and 56 neutrons. However, it has several naturally stable isotopes, they have, 50 neutrons, 52 neutrons, 53 neutrons, 54 neutrons, 55 neutrons and 58 neutrons. However, for all isotopes the number of protons and electrons remains the same, otherwise it would be a different element.
Electrons are negatively charged, smaller than neutrons and protons, and orbit around the nucleus. Neutrons have no charge, are about the same size as protons and are found in the nucleus. Protons have a positive charge, are about the same size as neutrons and are found in the nucleus.
Electrons are negative and are found in the electron cloud, which neutrons have no charge and reside in the nucleus.
The main difference between isotopes of the same element is the number of neutrons in the nucleus. Isotopes have the same number of protons and electrons but different numbers of neutrons, which affects their atomic mass.
It has the same number of protons and electrons, but two more neutrons.
D
they both have a connection by neutrons of the same energy level of an atom
No. The only difference between 2 isotopes of the same element is the number of neutrons.
For a neutral atom, the relationship between the number of protons and the number of neutrons is the same.
not usually, a standard atom will contain the same amount of electrons and PROTONS, not neutrons
they all have protons,neutrons,and electrons
They are NOT. The number of electrons and the number of neutrons are not linked at all - for instance, an atom of Hydrogen has one proton and one electron and NO neutrons.
Neutrons. If the differ in electrons they are not neutral and if they differ in protons then they are no longer the same element as the number of protons determines the name of the element.