Sodium has 11 electrons and protons; the number of neutrons is specific for each isotope.
Number of neutrons in a sodium isotope = Mass number - 11
an electron is found in shells , it is a subatomic particle
Atoms were found to be divisible after all . But scientists discovered that the atoms were made of smller perticles , called subatomic particles.
Electrons are found outside the nucleus in the electron cloud.
The three subatomic particles found in an atom are the Protons, Neutrons, and Electrons. But the subatomic particles found in the nucleus of an atom are the Protons, and Neutrons. The Electrons surround the nucleus and take up most of the volume.
The subatomic particles found in protons and neutrons are quarks. There are two types of quarks that combine to make either particle, up and down quarks. Protons are 2 ups and a down and neutrons are 2 downs and an up.
an electron is found in shells , it is a subatomic particle
Sodium is an element, so its composition is simply sodium. If you want to go subatomic, you could say that it is made up of 11 protons, 11 electrons, and 12 neutrons, but these aren't chemicals, they're subatomic particles.
Yes, atoms contain subatomic particles.
yes, that's why they are called subatomic.
the subatomic particles, protons and neutrons, form the nucleus.
These particles are: protons, neutrons and electrons.
Electrons
everywhere.
sodium, chlorine and oxygen
Yes, a proton is considered a subatomic particle. The proton, the neutron and the electron are smaller than atoms (making them subatomic particles). Further, these three particles are considered the building blocks of atoms. There are other subatomic particles, and to learn more, begin by examining the proton, neutron and the electron and finding out what it is that makes them up.Yes, protons are subatomic particles which are found in the nucleus of the atom and have a positive charge.
There are no particles within an electron: it is a particle unto itself.
These particles are neutrons and protons; they are formed from quarks and gluons.