What is basic atomic theory and what is the structure of matter.

Contributed by:
kevin
All matter is composed of atoms, each of which has a central nucleus and one or more electrons that travel in orbits around the nucleus, like satellites around the earth. The nucleus contains one or more positively charged particles called protons.
1. Basic Atomic Theory, The Structure of Matter
The field of study we call electricity is the investigation of the forces
created by charged particles, especially electrons, and the motion
and interactions of those particles. The electron is a fundamental
component of matter and is considered to have the smallest possible
unit of negative charge. In comparison to ordinary visible objects in
our environment, the electron is an extremely small particle, having a
mass of only 9.109 × 10-31 kg.
Atomic Structure
All matter is composed of atoms, each of which has a central
nucleus and one or more electrons that travel in orbits around the
nucleus, like satellites around the earth. The nucleus contains one or
more positively charged particles called protons. The positive
charge of a proton is ‘opposite’ to the negative charge of an electron,
in the sense that the total, or net, charge of the combination is zero.
Thus, an atom that has the same number of electrons in orbit as it has
protons in its nucleus is electrically neutral. The nucleus of every
atom except that of hydrogen also contains one or more neutrons,
which carry no electrical charge. The number of protons and neutrons
in the nucleus of an atom uniquely determines the element it
represents - iron, copper, oxygen, and so on - and all the atoms of a
given element have identical nuclei.
figure 741.1
2. Figure 741.1.1 is a diagram of the structure of the helium atom. Notice
that the nucleus is a cluster of two protons and two neutrons and that
there are two electrons in an orbit, called an electron shell, around
the nucleus. The atom is electrically neutral because the two
positively charged protons neutralize the two negatively charged
electrons.
Atomic Forces
A very important fact that accounts for many of the electrical
phenomena we will study in this site is that there is a force of
attraction between oppositely charged particles and a force of
repulsion between similarly charged particles. For example, two
electrons in the vicinity of one another will each experience a force
that drives them apart. An electron and a proton will each experience
a force that draws them together. The following statement
summarizes this behavior:
Like charges repel and opposite charges attract.
The magnitude of the force is inversely proportional to the square of
the distance separating the charged particles. In short, the force
increases dramatically when the particles are brought closer together.
We can see in Figure 741.1.1 that there is a strong force of attraction
between the orbiting electrons and the positive nucleus of the helium
atom. The dynamic forces resulting from the orbital motion of the
electrons counteract the attractive force of the nucleus and prevent
the electrons from falling into the nucleus. This phenomenon is similar
to that which keeps an earth satellite from falling out of orbit due to
gravitational attraction.
Electron shells
The atoms of other elements contain additional electron shells that
are farther removed from the nucleus than the electron shell shown in
Figure 741.1.1. Figure 741.1.2 shows the electron shells that surround
the nucleus of the copper atom. Each shell is designated by a letter
(k, l, m, and n) and there is an upper limit on the number of electrons,
which each shell can contain. If we regard the innermost (k) shell as
shell number 1, the next (l) as shell number 2, and so on, the
maximum number, M, of electrons that the nth shell can contain is
given by the formula:
3. M = 2n2 electrons
(eqn 741.1.1)
Thus, the innermost shell can contain at most 2 electrons, the next
shell, 8 electrons, the next shell, 18 electrons, and the fourth shell, 32
electrons. Equation 741.1.1 is valid for determining the number of
electrons in any of the first four shells of an atom, but is not generally
applicable for complex atoms containing additional shells.
figure 741.1.2
4. Electricity is the forces that arises from the motion of electrons
All matter is composed of atoms
An atom consists of a nucleus (containing protons and neutrons) orbited by
electrons
An electron is a negatively charged
A proton is positively charged
A neutron has no charge
Like charges repel and opposite charges attract
All atoms in an element (eg. oxygen, copper) contain an identical number of
protons
Atoms with an identical number of protons and electrons are electrically neutral
Electrons in an atom arrange themselves into shells around the nucleus