Atomic Models PDF

Summary

This document outlines different atomic models proposed throughout history, from Dalton's solid sphere to Bohr's planetary model and the quantum model. It describes the key postulates and features of each atomic model and provides examples.

Full Transcript

theory
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ATOMIC
MODELS 1 Solid Sphere Model

2 Plum Pudding Model

3 Nuclear Model

4 Planetary Model

5 Quantum Model
 ATOMIC THEORY
TIMELINE
1803 1897 1911 1913 1920s

Solid Plum Nuclear Planetary Quantum
Sphere
John
Pudding
Joseph John Ernest Rutherford Niels Erwin Schrödinger
Dalton Thomson Bohr
Atoms are dense and solid, Atoms are described as Atom consists of a small, Electrons move in Electrons do not have
with no internal structure or uniform, positively charged dense, positively charged quantized, discrete energy definite orbits, but are
subatomic particles spheres with electrons nucleus at the center, with levels around the nucleus described by wave
considered. embedded within them, electrons orbiting around it, and emit or absorb energy functions that represent
similar to raisins in a similar to planets orbiting when transitioning between probability distributions of
pudding. around the sun. levels. their locations.
Basic Postulates of
Dalton's Atomic Theory:
Matter is made up of extremely small and
1 indestructible particles called atoms.

2 All atoms of a given element are alike.

Atoms enter into combination with other atoms
3 to form compounds but remain unchanged
during ordinary chemical reactions.

4 Atoms can combine in simple numerical
ratios such as 1:1, 1:2, 2:3, and so on.
 Basic Postulates of
Dalton's Atomic Theory:
Atoms
1 can combine in simple numerical ratios
such as 1:1, 1:2, 2:3, and so on.

3

4

5
Plum Pudding Atomic
Model:
1

Positively Charged Sphere

5

Loosely embedded electrons
Nuclear Atomic Model: ❖ Ernest Rutherford (1871-1937), a British physicist,
completely unraveled Becquerel rays.

❖ discovered
1 (with his coworkers) that the rays are of
three types ---- alpha (α), beta (β), and gamma.

RUTHERFORD’S ALPHA-SCATTERING
EXPERIMENT
3

4

5
 RUTHERFORD’S ALPHA-SCATTERING
Nuclear Atomic Model: EXPERIMENT

1

3

4

5
 RUTHERFORD’S ALPHA-SCATTERING
Nuclear Atomic Model: EXPERIMENT

1

3

4

5
❖ James Chadwick (1891-1974), a British
physicist, discovered neutron.
Bohr's Planetary Model

Bohr's model proposed that
electrons orbit the nucleus in
specific energy levels. It
revolutionized the
understanding of atomic
structure.
❖ Niels Bohr (1885-1962),
a Danish physicist,
proposed the first
workable theory of
atomic structure. Here
are the following
postulates:
1. A hydrogen atom
consists of a nucleus
containing a proton and
an electron.
The electron revolves
around the nucleus in a
circular orbit. There is a
force of attraction
between the nucleus
and the electron. This
force balances the
centrifugal force on the
electron.
2. Only certain circular
orbits are permitted.
3. The energy of
electron in a given orbit
is fixed. As long as the
electron stays in that
orbit, it neither absorbs
nor radiates energy. The
non-radiating state is
called the stationary
state.
4. The electron may move
from one stationary state to
another. To do so, it must
absorb or emit a quantity of
energy exactly equal to the
difference in energy
between the two states.
Electrons normally exist in
the lowest energy state called
the ground state. When an
electron goes to a higher
energy state, it is said to be
in an excited state.
4. The electron may move from one stationary
state to another. To do so, it must absorb or
emit a quantity of energy exactly equal to the
difference in energy between the two states.
Why does sodium chloride give off a yellow
flame when heated?
 Electrons normally exist in the lowest energy
state called the ground state. When an
electron goes to a higher energy state, it is
said to be in an excited state.
Example: when sodium becomes excited, it
emits a characteristic spectrum in the yellow
region. This accounts for the yellow color of
the sodium vapor lamps.
 On a piece of paper, write your idea or
ideas on each of the following concepts:
∙ John Dalton’s Basic Postulates of Atomic
Theory

∙ Sir Joseph John Thomson’s Atomic Model
∙

∙ Rutherford’s Alpha-Scattering Experiment

∙ Niels Bohr’s Postulates of Atomic Theory
Group Activity:
FORM four groups.
Each group will do a role play
about the concepts discussed
by the scientists.
Rubric:
Knowledge of concept: 50%
Presentation/Delivery: 50%
Write true or false.
1. Based on Rutherford’s alpha-scattering
experiment, most of the alpha particles passed
through with large angles of deflection.
2. Sir Joseph John Thomson suggested that atom
was composed of a positively charged sphere with
loosely embedded electrons on the surface.
3. The electron revolves around the nucleus in a
circular orbit. There is a force of attraction between
the nucleus and the electron according to Niels
Bohr.
 Using the Periodic Table of the Elements, write
the correct chemical names of these two elements,
mass numbers, atomic numbers, and the number of
their particles.
An atom is
composed of
protons, electrons,
and neutrons.
The nucleus is the
central core of an
atom.
Protons and neutrons
have almost the
same mass and are
about 2000 more
massive than an
electron. Protons and
neutrons are
collectively called
nucleons.
 nucleus
has nucleons.
C
 Major Constituents of an Atom

Particle Electronic
(Symbol) Charge (C) charge Mass (kg) Location
-19 -31
Electron (e) -1.60 x 10 -1 9.109 x 10 Outside
nucleus
-19 -27
Proton (p) +1.60 x 10 +1 1.673 x 10 Nucleus

-27
Neutron(n) 0 0 1.675 x 10 Nucleus
The nucleus contributes more than
99.97% of the mass.

Electron orbits determine the size
or volume of atoms.
 The particles in an atom are designated by certain numbers.

ATOMIC NUMBER (symbolized by letter Z) – the number of
protons in the nucleus of each atom of that element.

MASS NUMBER (A) – the number of protons plus neutrons
X
in the nucleus; the total number of ______.

NEUTRON NUMBER (N) – the number of neutron in the
nucleus.
NEUTRON NUMBER (N) = mass number – atomic number
X
An element is a substance in which all the
atoms have the same number of protons
(same atomic number).
 An element is a pure substance made up of only
one type of atom.
There are 118 known elements, each with its
own unique properties.
Atoms that have the same number of protons but differ in their numbers of
neutrons are known as the isotopes of that element.

CARBON-12

CARBON-13

CARBON-14
 Isotope Protons Neutrons Mass number

Protium 1 1
(99.984%)
deuterium 1 2
(0.016%)
tritium 1 3
(artificially
produced
radioactive isotope)
Do isotopes of an element have the
same physical and chemical
properties?
 Isotopes of an element have the same
chemical properties because they have the
same number of electrons, which determine
chemical activity and reactions.
 Isotopes of an element have different
physical properties because they have
different masses.
 The Atomic Mass
Generally, each element occurs as a combination of its isotopes.
The weighted average mass of an atom of the element in a naturally
occurring sample is called the atomic mass.

The atomic mass is expressed in atomic mass unit (u).
1 u = 1.66054 x 10-27 kg.
Determine the number of protons,
electrons, and neutrons in
iodine-131.
Element Atomic Mass Protons Electrons Neutrons
Number Number

Na 11 23 11 11 12

Ac 227 89

Ni 59 28

U 92 146

H 1 0
 sodium - natrium
silver - argentum
gold - aurum
iron - ferrum ELEMENTS &
tin - stannum
lead - plumbum THEIR LATIN
copper - cuprum NAMES
mercury - hydrargyrum
potassium - kalium
Determine the number of protons, electrons, and neutrons in iodine-131.
 Names and Symbols of the Elements
Element Symbol Atomic Number Classic Name
Aluminum Al 13
Antimony Sb 51 Stibium
Arsenic As 33
Barium Ba 56
Beryllium Be 4
Boron B 5
Calcium Ca 20
Carbon C 6
Chlorine Cl 17
Chromium Cr 24
Copper Cu 29 cuprum
 Names and Symbols of the Elements
Element Symbol Atomic Number Classic Name
Fluorine F 9
Gallium Ga 31
Gold Au 79 aurum
Helium He 2
Hydrogen H 1
Iodine I 53
Iron Fe 26 ferrum
Lead Pb 82 plumbum
Magnesium Mg 12
Manganese Mn 25
Mercury Hg 80 hydrargyrum
 Names and Symbols of the Elements
Element Symbol Atomic Number Classic Name
Molybdenum Mo 42
Neon Ne 10
Nitrogen N 7
Oxygen O 8
Platinum Pt 78
Plutonium Pu 94
Potassium K 19 kalium
Radium Ra 88
Silicon Si 14
Silver Ag 47 argentum
sodium Na 11 natrium
Names and Symbols of the Elements
Element Symbol Atomic Number Classic Name
Strontium Sr 38
Sulfur S 16
Tin Sn 50 stannum
Titanium Ti 22
Tungsten W 74 wolfram
Uranium U 92
zinc Zn 30
Schrodinger's
Quantum
Mechanical Model
Schrodinger's model uses
quantum mechanics to
describe the behavior of
electrons in atoms. It predicts
the probability of finding
electrons in specific regions
around the nucleus.