Transcript intro to atomic theory ppt

4.1 Studying Atoms
Section 1: The Development
of Atomic Theory
Preview
• Key Ideas
• Bellringer
• The Beginnings of Atomic Theory
• Dalton’s Atomic Theory
• Thomson’s Model of the Atom
• Rutherford’s Model of the Atom
4.1 Studying Atoms
Key Ideas
〉Who came up with the first theory of atoms?
〉What did Dalton add to the atomic theory?
〉How did Thomson discover the electron?
〉What is Rutherford’s atomic model?
4.1 Studying Atoms
Bellringer
When scientists wanted to find out what an
atom was, they were not able to look directly
at what the atom was made of. They had to
make inferences from the results of many
different experiments. It was like trying to
describe a picture, such as the one on the
next slide, with only small portions visible.
4.1 Studying Atoms
Bellringer, continued
1. Write four sentences describing what you can see of
the above picture.
2. What information or parts of the picture would make
your descriptions more accurate without revealing
the entire picture?
4.1 Studying Atoms
Studying the structure of
atoms is a little like studying
wind. Because you cannot see
air, you must use indirect
evidence to tell the direction of
the wind. Atoms pose a similar
problem because they are
extremely small. Even with a
microscope, scientists cannot
see the structure of an atom.
4.1 Studying Atoms
Ancient Greek Models of Atoms
If you cut a piece of aluminum foil in half,
you have two smaller pieces of the same
shiny, flexible substance. You could cut
the pieces again and again. Can you keep
dividing the aluminum into smaller
pieces? Greek philosophers debated a
similar question about 2500 years ago.
4.1 Studying Atoms
Ancient Greek Models of Atoms
The philosopher Democritus believed that
all matter consisted of extremely small
particles that could not be divided. He
called these particles atoms from the
Greek word atomos, which means “uncut”
or “indivisible.”
4.1 Studying Atoms
Ancient Greek Models of Atoms
Aristotle thought that all
substances were made of only
four elements—earth, air, fire, and
water. He did not think there was a
limit to the division of matter.
For many centuries, most people
accepted Aristotle’s views on the
structure of matter. By the 1800s,
scientists had enough
experimental data to support an
atomic model.
4.1 Studying Atoms
The Beginnings of Atomic
Theory
〉Who came up with the first theory of atoms?
〉In the fourth century BCE, the Greek philosopher
Democritus suggested that the universe was
made of indivisible units called atoms.
• Democritus did not have evidence for his
atomic theory.
4.1 Studying Atoms
Dalton’s Atomic Theory
What was Dalton’s theory of the structure of
matter?
Dalton proposed the theory that all matter is
made up of individual particles called atoms,
which cannot be divided.
4.1 Studying Atoms
Dalton’s Atomic Theory
Evidence for Atoms
John Dalton studied the behavior of gases in
air. Based on the way gases exert pressure,
Dalton correctly concluded that a gas consists
of individual particles.
Dalton measured masses of elements that
combine when compounds form. The ratio of
the masses of the elements in each
compound was always the same. In other
words, compounds have a fixed composition.
4.1 Studying Atoms
Dalton’s Atomic Theory,
continued
• Dalton used experimental evidence.
– Law of definite proportions: A chemical compound always
contains the same elements in exactly the same proportions
by weight or mass.
• Dalton’s theory did not fit all observations
4.1 Studying Atoms
Dalton’s Atomic Theory
When magnesium burns, it
combines with oxygen. In
magnesium oxide, the ratio of
the mass of magnesium to
the mass of oxygen is always
about 3 : 2. Magnesium
dioxide has a fixed
composition.
4.1 Studying Atoms
Dalton’s Atomic Theory
Dalton’s Theory
• All elements are composed of atoms.
• All atoms of the same element have the
same mass, and atoms of different
elements have different masses.
• Compounds contain atoms of more than
one element.
• In a particular compound, atoms of different
elements always combine in the same way.
4.1 Studying Atoms
Dalton’s Atomic Theory
Dalton made these wooden spheres as a model
to represent the atoms of different elements. A
tiny, solid sphere with a different mass
represents each type of atom.
4.1 Studying Atoms
Dalton’s Atomic Theory
A theory must explain the data from many
experiments. Because Dalton’s atomic theory
met that goal, the theory became widely
accepted.
Over time, scientists found that not all of
Dalton’s ideas about atoms were completely
correct. They revised the theory to take into
account new discoveries.
4.1 Studying Atoms
Thomson’s Model of the Atom
What contributions did Thomson make to
the development of atomic theory?
Thomson’s experiments provided the first
evidence that atoms are made of even
smaller particles.
4.1 Studying Atoms
Thomson’s Model of the
Atom
〉How did Thomson discover the electron?
〉Thomson’s cathode-ray tube experiment
suggested that cathode rays were made of
negatively charged particles that came from
inside atoms.
4.1 Studying Atoms
Thomson’s Model of the Atom
When some materials are rubbed, they gain
the ability to attract or repel other materials.
Such materials are said to have either a
positive or a negative electric charge.
• Objects with like charges repel, or push apart.
• Objects with opposite charges attract, or pull
together.
4.1 Studying Atoms
Thomson’s Model of the Atom
Amber is the hardened form
of a sticky, viscous liquid that
protects trees from insects
and disease. If amber is
rubbed with wool, it becomes
charged and can attract a
feather.
4.1 Studying Atoms
Thomson’s Model of the Atom
Thomson’s Experiments
In his experiments, Joseph John Thomson
used a sealed tube containing a very small
amount of gas.
Sealed tube
Glowing beam
filled with gas at
low pressure
Metal disk
Metal disk
Source of
electric current
Metal disk
Source of
electric current
4.1 Studying Atoms
Thomson’s Model of the Atom
Thomson’s Experiments
In his experiments, Joseph John Thomson
used a sealed tube containing a very small
amount of gas.
Sealed tube
Glowing beam
filled with gas at
low pressure
Positive plate
Metal disk
Metal disk
Source of
electric current
Negative plate
Metal disk
Source of
electric current
4.1 Studying Atoms
Thomson’s Model of the Atom
When the current was turned on, the disks
became charged, and a glowing beam
appeared in the tube.
• Thomson hypothesized that the beam was a
stream of charged particles that interacted with
the air in the tube and caused the air to glow.
• Thomson observed that the beam was repelled
by the negatively charged plate and attracted
by the positively charged plate.
4.1 Studying Atoms
Thomson’s Model of the Atom
Evidence for Subatomic Particles
Thomson concluded that the particles in the
beam had a negative charge because they
were attracted to the positive plate. He
hypothesized that the particles came from
inside atoms because
• no matter what metal Thomson used for the
disk, the particles produced were identical.
• the particles had about 1/2000 the mass of a
hydrogen atom, the lightest atom.
4.1 Studying Atoms
Thomson’s Model of the Atom
Thomson’s Model
Thomson revised Dalton’s model to account
for these subatomic particles.
• The atom has neither a positive nor a negative
charge, but there must always be some positive
charge in the atom.
• The atom is filled with a positively charged mass
of matter that has negative charges evenly
scattered throughout it.
4.1 Studying Atoms
Thomson’s Model of the Atom
Thomson’s model is called the
“plum pudding” model. Today, it
might be called the “chocolate
chip ice cream” model.
The chips represent negatively
charged particles, which are
spread evenly through a mass of
positively charged matter—the
vanilla ice cream.
4.1 Studying Atoms
Thomson’s Model of the
Atom, continued
• Thomson developed the plum-pudding model.
– In his cathode-ray tube experiment, Thomson had
discovered electrons.
• electron: a subatomic particle that has a negative
charge
– Thomson’s plum-pudding model: electrons are spread
throughout the atom, like blueberries in a muffin
4.1 Studying Atoms
Rutherford’s Atomic Theory
What contributions did Rutherford make to
the development of atomic theory?
According to Rutherford’s model, all of an
atom’s positive charge is concentrated in its
nucleus.
4.1 Studying Atoms
Rutherford’s Model of the
Atom, continued
• Rutherford conducted the gold-foil
experiment.
• Rutherford discovered the
nucleus.
– nucleus: an atom’s central
region, which is made up of
protons and neutrons
4.1 Studying Atoms
Rutherford’s Atomic Theory
Rutherford’s Hypothesis
Ernest Rutherford designed an experiment to find out
what happens to alpha particles when they pass
through a thin sheet of gold. Alpha particles are fastmoving, positively charged particles.
• Based on Thomson’s model, Rutherford hypothesized
that the mass and charge at any location in the gold
would be too small to change the path of an alpha
particle.
• He predicted that most particles would travel in a straight
path from their source to a screen that lit up when struck.
4.1 Studying Atoms
Rutherford’s Atomic Theory
The Gold Foil Experiment
Deflected
particle
Undeflected
particle
Alpha
particles
Gold atoms
Slit
Beam of alpha
particles
Alpha
particles
Screen
Source of
alpha particles
Nucleus
4.1 Studying Atoms
Rutherford’s Atomic Theory
Discovery of the Nucleus
The alpha particles whose paths were
deflected must have come close to
another charged object. The closer
they came, the greater the deflection.
However, many alpha particles passed
through the gold without being
deflected. These particles did not pass
close to a charged object.
4.1 Studying Atoms
Rutherford’s Atomic Theory
Thomson’s model did not explain all of the
evidence from Rutherford's experiment.
Rutherford proposed a new model.
• The positive charge of an atom is not evenly
spread throughout the atom.
• Positive charge is concentrated in a very
small, central area.
• The nucleus of the atom is a dense,
positively charged mass located in the center
of the atom.
4.1 Studying Atoms
Rutherford’s Atomic Theory
The Houston Astrodome
occupies more than nine
acres and seats 60,000
people. If the stadium
were a model for an atom,
a marble could represent
its nucleus.
The total volume of an
atom is about a trillion
(1012) times the volume of
its nucleus.
4.1 Studying Atoms
Assessment Questions
1. Dalton’s theory did not include which of the
following points?
a.
b.
c.
d.
All elements are composed of atoms.
Most of an atom’s mass is in its nucleus.
Compounds contain atoms of more than one element.
In a specific compound, atoms of different elements
always combine in the same way.
4.1 Studying Atoms
Assessment Questions
1. Dalton’s theory did not include which of the
following points?
a.
b.
c.
d.
All elements are composed of atoms.
Most of an atom’s mass is in its nucleus.
Compounds contain atoms of more than one element.
In a specific compound, atoms of different elements
always combine in the same way.
ANS: B
4.1 Studying Atoms
Assessment Questions
2. J. J. Thomson’s experiments provided the first
evidence of
a.
b.
c.
d.
atoms.
a nucleus.
subatomic particles.
elements.
4.1 Studying Atoms
Assessment Questions
2. J. J. Thomson’s experiments provided the first
evidence of
a.
b.
c.
d.
atoms.
a nucleus.
subatomic particles.
elements.
ANS: C
4.1 Studying Atoms
Assessment Questions
1. The concept of an atom as a small particle of
matter that cannot be divided was proposed by
the ancient Greek philosopher, Democritus.
True
False
4.1 Studying Atoms
Assessment Questions
1. The concept of an atom as a small particle of
matter that cannot be divided was proposed by
the ancient Greek philosopher, Democritus.
True
False
ANS:
T