1. The document outlines the development of atomic theory from ancient Greek philosophers like Democritus and Aristotle to modern scientists like Dalton, Thomson, Rutherford, Bohr, Schrodinger, Heisenberg, and Chadwick.
2. Key early atomic theories included Democritus' idea that matter is made of indivisible atoms and Dalton's atomic theory that elements are made of atoms that are unique in mass and size and that compounds are formed by combinations of atoms.
3. Modern atomic theories incorporated subatomic particles like the electron discovered by Thomson, the nuclear model developed by Rutherford after discovering alpha particle deflections, and Bohr's planetary model explaining electron energy levels.
3. The learners should be able to:
1. describe the basic laws of
chemical change
2. solve problems involving the
basic laws
4. does not occupy space &
has no mass
does not occupy space &
has no mass
Occupies space & has mass
Occupies space & has mass
Occupies space & has mass
salt granules Occupies space & has mass
What is matter & what is not?
Samples Matter Not Matter Reasons for your
answer
water
air inside a ball
smoke
heat
light
5. Democritus 460 BC
- a Greek philosopher & a student
of Leucippus who first expressed
the idea that matter is
discontinuous and made up of
tiny, indivisible particles called
atomos, now known as ATOMS.
A
6. ARISTOTLE 450 BC
He rejected the idea of atom.
He thought all substances were
built up from only four elements:
earth, water, air & fire.
7. As one of the most
influential philosophers of
Ancient Greek whose
intellectual range was vast
covering most of sciences,
mathematics, ethics, logic ,
philosophy of mind, rhetoric
and political theory, the
atomic theory was ignored
for nearly 2000 years.
8. Robert boyle 1627-1692
was the first scientist to give
evidence to support Democritus
idea about atoms.
He explained the compressibility
of air in terms of tiny particles
forced closer together.
10. Law of Conservation of Mass:
In a chemical reaction, no change
in mass takes place. The total
mass of the products is equal to
the total mass of the reactant.
Antoine Lavoisier 1743-94
11. Law of Definite
Proportions:
A compound always contains the
same constituent elements in a
fixed or definite proportion by
mass.
Atoms combine in whole number
ratios, so their proportion by mass
will always be the same.
Joseph Proust
(France 1799)
12. John Dalton 1766-1844
If two elements can combine to
form more than
one compound, the masses of
one element that will combine
with a fixed mass of the other
element are in a ratio of small
whole numbers.
Law of Multiple Proportions
13. 1. How many grams of water will be formed if 1.00 g
hydrogen gas reacts with 8.00 g
oxygen? The reaction can be represented by the
following word equation:
hydrogen + oxygen water
2. If 1.00 g hydrogen combines with 8.00 g
oxygen. How many grams of hydrogen will react with
10.00 g oxygen?
3. In the carbon compounds ethane (C2H6) and ethene
(C2H4), what is the lowest whole number ratio of H
atoms that react with the same number of C atoms?
Assessment:
14. Assignment:
What the different atomic theories proposed
by:
-Dalton
-Thomson
-Rutherford
-Bohr
-Schrodinger
- Heisenberg
15. John Dalton 1766-1844
- An English chemist in the late 1700's
began to explain chemical behavior in
terms of the atom.
- He integrated the results of Robert Boyle,
Antoine Lavoisier and Joseph Louis Proust
developed an atomic theory in 1803.
EARLY ATOMIC THEORY
16. Dalton’s Atomic Theory
- is based on the 5 postulates:
1. Elements are made up of very small particles
known as atoms.
2. All the atoms of an element are identical in
mass, and size, and are different from the atoms
of another element. Dalton used the different
shapes or figures to represent different elements
as follows:
17. 3. Compounds are composed of atoms of more than one
element, combined in definite ratios with whole number
values.
4. During a chemical reaction, atoms combine, separate, or
rearrange. No atoms are created nor destroyed.
19. J.J. Thomson 1856-1940
an English chemist and physicist who
discovered 1st subatomic particles – the
electron. He proposed that atom is a
positive ball of electricity with negative
electrons embedded which is referred to
as the plum pudding model
MODERN ATOMIC THEORY
21. Ernest Rutherford 1871-1937
a New Zealander physicist who tested
Thomson’s model by bombarding a
very thin sheet of gold foil with the
positively charged alpha particles.
Alpha particles expected to travel
undeflected through the atoms of gold
foil. But a few of the alpha particles
bounce back.
22. To account for the few deflections
Rutherford suggested that:
• most of the atom is an empty space
• the mass of the atom were
concentrated in a very tiny region
called NUCLEUS which is positively
charged
• electrons surround the nucleus
Nuclear Model
Rutherford’s Atomic Model
24. Neils Bohr 1913
Danish physicist described the
atom like a solar system. Electrons
with fixed amount of energy called
energy level travel around the
nucleus in definite paths and fixed
distances. Electrons can jump
from one level to another. Energy
in the form of light is emitted as it
returns to the lower energy level.
31. werner Heisenberg 1901-1976
discovered that for a
very small particle like the electron,
its location cannot be exactly
known and how it is
moving. This is called the
uncertainty principle.
32. Quantum Mechanical Cloud Model
describes the atom as having a
nucleus at the center around
which the electrons move. It
also views an electron as a
cloud of negative charge
having a certain geometrical
shape . The region in space
where the electron is most likely
to be found is the atomic
orbital.
33. James chadwick
In 1932 discovered the neutrons
which have a mass nearly equal to
the mass of a proton & do not have
electrical charge
34. Modern Theory of the Atom
• Atoms are composed of three main subatomic
particles: the electron, proton, and neutron.
• Most of the mass of the atom is concentrated in
the nucleus of the atom.
• The protons and neutrons are located within the
nucleus, while the electrons exist outside of the
nucleus.
• In stable atoms, the number of protons is equal
to the number of electrons.