The Periodic Table of Elements
Dmitri Mendeleev (1834-1907): A Russian chemist attempted to organize the elements based on information such as density,
appearance, atomic mass, and melting point. After much work he determined that there was a repeating pattern to the properties when
the elements were arranged in order of increasing atomic mass. In this order, certain chemical properties of the elements were
"periodic" meaning that they had a regular repeated pattern. There were still some missing elements, but he predicted that those were
elements yet to be discovered. In 1914 Henry Moseley determined that the elements should be arranged by the number of protons - the
atomic number- and the periodic table was rearranged using this method, which greatly improved the arrangement of elements. So, we
arrive at the modern version of the periodic table which looks like…
You’ve got your Periods…
Periods = rows
From left to right
What do elements in a row have in common?
the same number of electron shells
Every element in Period 1 (1st row) has 1 shell for its
electrons (H & He)
All of the elements in period 2 have 2 shells for their
electrons.
It continues like this all the way down the table
And you’ve got your Groups
Column = group = families
What do elements in a group have in common?
o The same number of valence electrons (electrons in the
outer shell)
Every element in group 1 (1st column) has 1 valence electron
Every element in group 2 has 2 valence electrons.
In fact, if you know the group’s number, you automatically
know how many valence electrons it has!
Group Labels: Labeling the groups can be confusing because the rules change with the middle transition elements. The transition
elements get grouped together as the “B” elements, or groups #1B - 8B. All of the other elements are “A” elements, with groups #1A -
8A. Using this labeling system will tell you exactly how many valence electrons are in the atoms. However, sometimes the groups are
just labeled #1-18.
Two at the Top: Hydrogen (H) and helium (He) are special elements. Hydrogen can have the talents and electrons of two groups, one
and seven & sometime it is missing an electron, and sometimes it has an extra. Helium is different from all of the other elements. It can
only have two electrons in its outer shell. Even though it only has two, it is still grouped with elements that have eight (inert gases).
Metals, Metalloids, & Nonmetals: Another pattern we find on the periodic table is that all of the metals
are grouped together on the left & the nonmetals are on the right. The metalloids fall in between, near
the zigzag line. This trend isn’t a coincidence. The number of valence electrons, or electrons in the
outer shell, determines how an element acts. For example, metals have few electrons in their outer shell.
This causes them to possess metallic properties such as, conductivity & reactivity. Conversely, the
nonmetals on the right of the periodic table have almost complete sets of electrons in their outer level.
Therefore, they possess nonmetallic traits such as dullness, poor conductivity, and brittleness. We can
summarize all of this just by saying: Elements get less metallic as you move from left to right.
Families Stick Together: Scientists group families of elements by their chemical properties. Each family reacts a different way with
the outside world. BUT, elements within a family are similar to one another. Metals behave differently than gases and there are even
different types of metals. Some don't react, others are very reactive, and some are metallic. Let’s go over the periodic table families…
Family #1 or 1A: Alkali Metals
Li , Na , K , Rb, Cs, Fr
Very Reactive
1 valence electron
All have ONE outer electron to lose.
This makes them highly reactive, since they are looking
to combine with another element to become stable and
have that outer level filled and complete (or happy!).
Most reactive of all metals
Soft and can be cut with a knife
Family #2 or 2A: Alkaline Earth Metals
Be, Mg, Ca, Sr, Ba, Ra
very reactive, but less than alkali metals
2 valence electrons
Not as reactive because it is harder to give two electrons away than
just one.
Sodium is used in street lights, and different compounds are used in
detergent, paper, glass & soap.
Potassium is used in fertilizer and with chloride. Potassium chloride
is used as a salt substitute.
Typically what’s lost in perspiration