Each
basic element has a certain number of electrons and protons, which
distinguishes each element from all other basic elements. In most
elements, the number of electrons is equal to the number of protons.
This maintains an electrical balance in the structure of atoms since
protons and electrons have equal, but opposite electrostatic fields.
Pictured here is an atom of copper, which is much more complex than either an atom of hydrogen or helium.
The
copper atom has 29 protons in its nucleus with 29 electrons orbiting
the nucleus. Notice that in the copper atom, the electrons are arranged
in several layers called shells. This is to graphically represent
that the electrons are at different energy levels within the atom. The
energy of an electron is restricted to a few particular energy levels.
The energy is said to be quantized, meaning that it cannot vary
continuously over a range, but instead is limited to certain values.
These energy levels or shells follow a very predictable pattern. The
closest shell to the nucleus can have up to 2 electrons. The second
shell from the nucleus can have up to 8 electrons. The third shell can
have up to 18 electrons. The fourth shell can have up to 32 electrons,
and so on. Atoms can have this many electrons, but they do not have to
have this many electrons in each shell. The greater distance between the
electrons in the outer shells and the protons in the nucleus mean the
outer shell electrons experience less of a force of attraction to the
nucleus than do the electron in the inner shells.
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