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Transcript
The Development of Atomic Theory

Ancient times to
the present
Democritus


Atoms are
indivisible,
indestructible,
fundamental units
of matter.
“Atomos”
Robert Boyle



The Skeptical
Chemist
Quantitative
experimentation
Identification of
elements
Antoine Lavoisier



Role of oxygen in
combustion
Law of conservation
of mass
First modern
textbook
John Dalton


Atomic Theory Unchallenged for
100 years
Law of multiple
proportions
Atomic Theory of Matter
The theory that
atoms are the
fundamental
building blocks of
matter reemerged
in the early 19th
century,
championed by
John Dalton.
Dalton’s Postulates
Each element is composed of
extremely small particles called
atoms.
Dalton’s Postulates
All atoms of a given element are
identical to one another in mass and
other properties, but the atoms of
one element are different from the
atoms of all other elements.
Dalton’s Postulates
Atoms of an element are not
changed into atoms of a different
element by chemical reactions.
Dalton’s Postulates
Atoms are neither created nor
destroyed in chemical reactions.
Dalton’s Postulates
Compounds are formed when
atoms of more than one element
combine; a given compound
always has the same relative
number and kind of atoms.
Early experiments to characterize
the atom
J. J. Thomson



Discovery of the
electron
Cathode ray tube
http://www.chem.
uiuc.edu/clcwebsite
/video/Cath.mov
The Electron

Streams of negatively charged particles
were found to emanate from cathode
tubes.
The Electron
Thomson measured the charge/mass
ratio of the electron to be 1.76  108
coulombs/g.
The Atom, circa 1900:


“Plum pudding”
model, put forward
by Thomson.
Positive sphere of
matter with negative
electrons imbedded in
it.
Henri Becquerel


Discovery of
radioactivity
Nobel Prize
Radioactivity

Three types of radiation were
discovered by Ernest Rutherford:
  particles
  particles
  rays
Robert Millikan



Oil Drop
Experiment
Determined the
charge and mass
of the electron
http://search.eb.co
m/nobel/cap/omilli
k001a4.html
Millikan Oil Drop Experiment
Once the
charge/mass ratio
of the electron was
known,
determination of
either the charge or
the mass of an
electron would yield
the other.
Millikan Oil Drop Experiment
Robert Millikan
(University of
Chicago)
determined the
charge on the
electron in 1909.
Ernest Rutherford


Existence of the
nucleus and its
relative size
Gold foil
experiment
Discovery of the Nucleus
Ernest Rutherford
shot  particles at
a thin sheet of
gold foil and
observed the
pattern of scatter
of the particles.
The Nuclear Atom
Since some
particles were
deflected at large
angles, Thomson’s
model could not be
correct.
Niels Bohr



Proposed improvements
to Rutherford’s model.
Definite orbits in which
an electron can travel
around a nucleus
without radiating energy.
Only works for
hydrogen!
Other Subatomic Particles


Protons were discovered by
Rutherford in 1919.
Neutrons were discovered by
James Chadwick in 1932.
Erwin Schrödinger
What could be next?