FPS3Chap15PeriodicTable
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PERIODIC TABLE
Chapter Fifteen: Elements and
the Periodic Table
15.1 The Periodic Table of the
Elements
15.2 Properties of the Elements
Chapter 15.1 Learning Goals
Differentiate physical and chemical
properties of elements.
Explain how the periodic table is
organized.
Identify metals, semimetals, and
nonmetals on the periodic table.
Investigation 15A
The Periodic Table
Key Question:
How is the periodic table organized?
15.1 Physical properties
Characteristics that you can see through
direct observation are called physical
properties.
Physical properties include color, texture,
density, brittleness, and state (solid,
liquid, or gas).
Melting point, boiling point, and specific
heat are also physical properties.
15.1 Physical properties
A physical change does not result in
a new substance being formed.
15.1 Chemical properties
Properties that can only be observed
when one substance changes into a
different substance are called chemical
properties.
Any change that transforms one
substance into a different substance is
called a chemical change.
15.1 The Periodic Table
The periodic table organizes the elements
according to how they combine with other
elements (chemical properties).
The periodic table is organized in order of
increasing atomic number.
15.1 The Periodic Table
The periodic table is
further divided into
periods and groups.
Each horizontal row
is called a period.
Each vertical column
is called a group.
15.1 The Periodic Table
All the elements in
Group 1 of the periodic
table form similar
compounds.
The metals lithium,
sodium, and potassium
all form compounds
with a ratio of 2 atoms
of the metal to 1 atom
of oxygen.
15.1 Atomic Mass
The mass of individual atoms is so
small that the numbers are difficult to
work with.
To make calculations easier, scientists
use the atomic mass unit (amu).
The atomic mass of any element is the
average mass (in amu) of an atom of
each element.
15.1 Atomic Mass
Atomic masses
differ from mass
numbers because
most elements in
nature contain more
than one isotope.
15.1 Atomic Number
Remember, the atomic number is the
number of protons all atoms of that element
have in their nuclei.
If the atom is neutral, it will have the same
number of electrons as protons.
15.1 Groups of the periodic table
The first group is known as the
alkali metals.
The alkali metals are soft and silvery
in their pure form and are highly
reactive.
This group includes the elements
lithium (Li), sodium (Na), and
potassium (K).
15.1 Groups of the periodic table
The group two metals include
beryllium (Be), magnesium (Mg), and
calcium (Ca).
They also bond easily with oxygen.
15.1 Halogens
The halogens tend to be toxic
gases or liquids in their pure form.
Fluorine (F), chlorine (Cl), and
bromine (Br) form salts when the
bond with alkali metals.
15.1 Noble Gases
The noble gases, including
the elements helium (He),
neon (Ne), and argon (Ar).
These elements do not
naturally form chemical
bonds with other atoms
and are almost always
found in their pure state.
Chapter Fifteen: Elements and
the Periodic Table
15.1 The Periodic Table of the
Elements
15.2 Properties of the Elements
Chapter 15.2 Learning Goals
Differentiate the electrical and thermal
conductivity of metals and nonmetals.
Define periodicity and discuss
examples.
Predict properties of an element based
on its position on the periodic table.
Investigation 15B
Atomic Challenge
Key Question:
What information can you get from the
periodic table?
15.2 Properties of the elements
Most of the pure elements are solid
at room temperature.
Only 11 naturally occurring elements
are a gas.
Only 2 elements (Br and Hg) are
liquid at room temperature.
15.2 Periodic properties of elements
Periodicity means properties repeat
each period (row) of the periodic
table.
This pattern is an example of periodicity.
15.2 Thermal and electrical
conductivity
Electricity is the movement
of electric charge, usually
electrons.
Some materials allow
electrons to flow easily
through them.
We call these materials
electrical conductors.
15.2 Thermal and electrical
conductivity
Like copper, most
metals are good
thermal conductors.
That is one reason pots
and pans are made of
metal.
15.2 Thermal and electrical
conductivity
Elements on the far right
of the table are called nonmetals.
Nonmetals make good
insulators.
An insulator is a material
which slows down or
stops the flow of either
heat or electricity.
15.2 Metals and metal alloys
An alloy is a solid mixture
of one or more elements.
Most metals are used as
alloys and not in their pure
elemental form.
Yellow brass is an alloy of
72% copper, 24% zinc, 3%
lead, and 1% tin.
15.2 Metals and metal alloys
Titanium combines the
strength and hardness
of steel with the light
weight of aluminum.
Titanium, a rare and
expensive alloy, is used
for military aircraft and
racing bicycles.
15.2 Carbon and carbon-like
elements
Almost all the molecules
that make up plants and
animals are constructed
around carbon.
The chemistry of carbon
is so important it has its
own name, organic
chemistry.
15.2 Carbon and carbon-like
elements
Pure carbon is found
in nature as either
graphite or diamond.
Why are carbon and
silicon important?
Silicon is the second
most abundant
element in the
Earth’s crust, second
only to oxygen.
15.2 Nitrogen, oxygen and
phosphorus
Oxygen and nitrogen are
crucial to living animals
and plants.
For example, proteins and
DNA both contain nitrogen.
Phosphorus is a key
ingredient of DNA, the
molecule responsible for
carrying the genetic code
in all living creatures.
15.2 Nitrogen, oxygen and
phosphorus
Proteins and DNA both
contain oxygen and
nitrogen, making these
elements crucial to life.
46% of the mass of
Earth’s crust is also
oxygen bound up in
rocks and minerals.
15.2 Nitrogen, oxygen and
phosphorus
Phosphorus is a key
ingredient of DNA, the
molecule responsible
for carrying the genetic
code in all living
creatures.
When phosphorus
atoms absorb light, they
store energy, then
release it in a greenish
glow.
Investigation 15C
Electrons and the Periodic Table
Key Question:
How do electrons fill up
the energy levels?
Silicon- The Super Element
Although silicon can form a
myriad of useful compounds,
it’s best known for its impact
on the modern world in the
form of the microchip, a
miniaturized electric circuit
that fits into computers,
cellular telephones,
microwaves, and other digital
appliances.