Transcript atom

Structure of Matter
Atomic Theories
• Greek Atom
• Dalton Atom
• Thomson Atom
• Bohr Atom
Greek Atom
The earliest recorded reference to this investigation
comes from the Greeks, several hundred years bc.
Scientists at that time thought that all matter was
composed of four substances: earth, water, air, and fire
The Greeks used the term atom, meaning “indivisible”
[a (not) + temon (cut)] to describe the smallest part of
the four substances of matter.
Dalton Atom
1) All matter is made of atoms. Atoms are indivisible and
indestructible.
2) All atoms of a given element are identical in mass and
properties
3) Compounds are formed by a combination of two or more
different kinds of atoms.
4) A chemical reaction is a rearrangement of atoms
Thomson Atom
In the late 1890s, while investigating the physical properties of cathode rays
(electrons), J.J. Thomson concluded that electrons were an integral part of all
atoms. He described the atom as looking something like a plum pudding,
where the plums represented negative electric charges (electrons) and the
pudding was a shapeless mass of uniform positive electrification. The number
of electrons was thought to equal the quantity of positive electrification
because the atom was known to be electrically neutral.
Bohr Atom
In 1913, Niels Bohr improved Rutherford's description of the atom. Bohr's model
was a miniature solar system in which the electrons revolved about the nucleus in
prescribed orbits or energy levels.
Simply put, the Bohr atom contains a small, dense, positively charged nucleus
surrounded by negatively charged electrons that revolve in fixed, well-defined orbits
about the nucleus. In the normal atom, the number of electrons is equal to the
number of positive charges in the nucleus.
The fundamental particles of an atom are the electron, the proton, and the
neutron.
The atom can be viewed as a miniature solar system whose sun is the nucleus
and whose planets are the electrons. The arrangement of electrons around the
nucleus determines the manner in which atoms interact.
Electrons are very small particles that carry one unit of negative electric charge.
Their mass is only 9.1×10−31 kg. They can be pictured as revolving about the
nucleus in precisely fixed orbits, just as the planets in our solar system revolve
around the sun.
The nucleus contains particles called nucleons, of which there are two
types: protons and neutrons. Both have nearly 2000 times the mass of an
electron.
The atom is mostly empty space, similar to our solar system. The nucleus of
an atom is very small but contains nearly all the mass of the atom.
MASS
Particle
Location Relative
Kilograms
Number
Charge
Symbol
Electron
Shells
1
9.109×10−31
0
−1
−
Proton
Nucleus
1836
1.673×10−27
1
+1
+
Neutron
the atom is mostly empty space, similar to
our solar system. The nucleus of an atom
−27
Nucleus is1838
1 the
0
very small1.675×10
but contains
nearly all
mass of the atom.
O
Possible electron orbits are grouped into different “shells.” The arrangement of
these shells helps reveal how an atom reacts chemically, that is, how it
combines with other atoms to form molecules. Because a neutral atom has the
same number of electrons in orbit as protons in the nucleus, the number of
protons ultimately determines the chemical behavior of an atom.
The number of protons determines the chemical element.
Atoms that have the same number of protons but differ in the number of
neutrons are isotopes; they behave in the same way during chemical reactions.
Electrons can exist only in certain shells, which represent different electron
binding energies or energy levels. For identification purposes, electron orbital
shells are given the codes K, L, M, N, and so forth, to represent the relative binding
energies of electrons from closest to the nucleus to farthest from the nucleus. The
closer an electron is to the nucleus, the greater is its binding energy.
In their normal state, atoms are electrically neutral; the electric charge on the
atom is zero.
The total number of electrons in the orbital shells is exactly equal to the number of
protons in the nucleus. If an atom has an extra electron or has had an electron
removed, it is said to be ionized. An ionized atom is not electrically neutral but
carries a charge equal in magnitude to the difference between the numbers of
electrons and protons.
Atoms cannot be ionized by the addition or subtraction of protons because they
are bound very strongly together, and that action would change the type of
atom. An alteration in the number of neutrons does not ionize an atom because
the neutron is electrically neutral.
Ionization - external
Ionization - internal
Characteristic cascade
Shell
Number
Shell Symbol
Number of Electrons
1
K
2
2
L
8
3
M
18
4
N
32
5
O
50
6
P
72
7
Q
98
MAXIMUM ELECTRONS PER SHELL
2n2
Electron Binding Energy
The strength of attachment of an electron to the nucleus is called the electron
binding energy, designated Eb. The closer an electron is to the nucleus, the
more tightly it is bound. K-shell electrons have higher binding energies than Lshell electrons, L-shell electrons are more tightly bound to the nucleus than Mshell electrons, and so forth.
Not all K-shell electrons of all atoms are bound with the same binding energy. The
greater the total number of electrons in an atom, the more tightly each is bound.
The number of protons plus the number of neutrons in the nucleus of an atom is
called the atomic mass number, symbolized by A. The atomic mass number is
always a whole number. The use of atomic mass numbers is helpful in many
areas of radiologic science.
The chemical properties of an element are determined by the number and
arrangement of electrons. In the neutral atom, the number of electrons equals
the number of protons. The number of protons is called the atomic number,
represented by Z.
Element
Atomic
Chemica
Number
l Symbol
(Z)
Number of
Atomic Mass Naturally
Number (A) Occurring
Isotopes
K-Shell Electron Binding
Energy (keV)
Beryllium
Be
4
9
1
0.11
Carbon
C
6
12
3
0.28
Oxygen
O
8
16
3
0.53
Aluminum
Al
13
27
1
1.56
Calcium
Ca
20
40
6
4.04
Iron
Fe
26
56
4
7.11
Copper
Cu
29
63
2
8.98
Molybdenum
Mo
42
98
7
20
Isotopes
Atoms that have the same atomic number but different
atomic mass numbers are isotopes.