Transcript File

Atomic models
Of course, the Greeks started it all….
 Around 440 BC,
Leucippus of Miletus
originated the atom
concept. He and his
pupil, Democritus
(c460-371 BC) of
Abdera, refined and
extended it in future
years. There are five
major points to their
atomic idea.
Their points:
1. Matter is composed of atoms, which are too
small to be seen and cannot be split into
smaller particles.
2. There is a void; an empty space between
atoms.
3. Atoms are completely solid.
4. Atoms are homogeneous (the same
throughout)
5. Atoms come in all sorts of shapes and sizes.
Aristotle was against the atomists!
 Aristotle believed in
the earth, air, fire
water theory.
Not much happened in terms of
atomic theory for a long time…..
….everyone was too busy engaging in
bloody wars, witch burnings or dying in
horrible plagues etc.
Dalton’s atom (1766-1844):
 1) chemical elements are
made of atoms
2) the atoms of an
element are identical in
their masses
3) atoms of different
elements have different
masses
4) atoms only combine in
small, whole number
ratios such as 1:1, 1:2,
2:3 and so on.
The electron
 On April 30, 1897, Joseph
John (J.J.) Thomson (18561940) announced that cathode
rays were negatively charged
particles which he called
'corpuscles.' He also
announced that they had a
mass about 1000 times smaller
than a hydrogen atom
Thomson’s experiments
Thomson’s atom
Rutherford’s experiment
Rutherford experiment animation
http://www.waowen.screaming.net/revision
/nuclear/rsanim.htm
They tried other metals as well..
 For platinum, Geiger and Marsden reported:
 "Three different determinations showed that of the incident a-particles about
1 in 8000 was reflected, under the described conditions."
 There were three major findings:
 1) Almost all of the alpha particles went through the gold foil as if it were not
even there. Those alpha particles, of course, continued on a straight-line
path until they hit the detector screen.
 2) Some of the alpha particles were deflected only slightly, usually 2° or
less. Geiger found that an alpha particle was, on average, deflected about
1/200th of a degree by each single encounter with a gold atom. The most
probable angle of deflection for one gold foil turned out to be about 1°.
(Rutherford cites a figure of 0.87° in his 1911 paper.)
 3) A very, very few (1 in 8000 for platinum foil) alpha particles were turned
through an angle of 90° or more. (Rutherford cites 1 in 20,000 for gold in
his 1911 paper.)
Rutherford’s atom
Bohr
"An expert is a man who has made all the
mistakes which can be made, in a very
narrow field."
Bohr (1885 - 1962 )
 Ernest Rutherford had recently suggested the atom had
a miniature, dense nucleus surrounded by a cloud of
nearly weightless electrons. There were a few problems
with the model, however. For example, according to
classical physics, the electrons orbiting the nucleus
should lose energy until they spiral down into the center,
collapsing the atom. Bohr proposed adding to the model
the new idea of quanta put forth by Max Planck in 1901.
That way, electrons existed at set levels of energy, that
is, at fixed distances from the nucleus. If the atom
absorbed energy, the electron jumped to a level further
from the nucleus; if it radiated energy, it fell to a level
closer to the nucleus.
Bohr
Bohr model interactive…hours of fun
http://highered.mheducation.com/olcweb/c
gi/pluginpop.cgi?it=swf::800::600::/sites/dl/
free/0072482621/59229/Bohr_Nav.swf::Th
e%20Bohr%20Atom
Chadwick’s atom
 Intrigued by Rutherford's speculation about a
subatomic particle with no charge, Chadwick began
a series of experiments to demonstrate the
existence of such a particle. Initially, none of the
experiments succeeded. Then, in 1930, Walther
Bothe and Herbert Becker described an unusual
type of gamma ray produced by bombarding the
metal beryllium with alpha particles. Chadwick
recognized that the properties of this radiation were
more consistent with what would be expected from
Rutherford's neutral particle. The subsequent
experiments by which Chadwick proved the
existence of the neutron earned him the 1935
Nobel Prize in physics.
And today…..the wave-mechanical atom
Orbitals are strange looking things…
And leptons, hadrons, quarks
etc……….
This story is not yet finished
(or is it??)!