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Transcript
Periodic Table
The Basics
Chemistry
Mrs. Sousa & Mr. Pickin
5/24/2017
1
Introduction

5/24/2017
This presentation will give you all
the information you need to know
about the basic organization of the
periodic table
2
Origin


5/24/2017
The periodic table was first devised
by Dmitiri Mendeleev in Russia in
1869
Based on the “Periodic Law”
which states that the properties of
the elements repeat periodically
3
Basics
5/24/2017

Elements listed by increasing atomic number
(Unique for each element) (thus properties)

Atomic number is the number of protons
contained in the nucleus of an atom of an
element
4
Major Divisions in Table





5/24/2017
Metals (<4 valence electrons)
form + ions (cations). Ionic bonds
Non-metals (>4 valence electrons)
form - ions (anions). Covalent bonds
Metalloids (semi-metals)
Separated by zig-zag line
Image
5
Periods
5/24/2017

Horizontal (across) rows are called periods.
Properties of elements change across the
period.

7 periods (maximum)

Period number is the number of energy
levels each element contains in that row
(quantum # n value as well)
6
Groups/Families
Either term acceptable
5/24/2017

Vertical columns 18 families

Numbered from left to right

Members of the same family have very
similar chemical and physical properties.
Atoms increase in size as you get lower in a
group.
7
Representative Families.







Representative families are 1,2,13,
14,15,16,17,18
Ones place is the number of valence electrons
In other words- for 13-18 put your finger over the #1!
Ex. Family 16 has 6 valence electrons
Valence electrons are those in the outer energy level –
they are used for bonding and come from the s & p orbital
space
Noble Gases (group #18) all have 8 valence electrons.
Exception to the octet rule: He (helium) has 2 valence
electrons
5/24/2017
8
Common Names
 1-Alkali metals (most active metals)
 2-Alkaline earth metals
 16-Chalcogens



5/24/2017
17-Halogens (most active non-metals)
18- Noble gases (not reactive)
3-12 Transition metals (1 or 2 valence
electrons)
Lanthanide series (AN 57-71)
Actinide series (AN 89-103)
9
Regions of the Periodic Table
5/24/2017
10
Group 1: Alkali Metals
Reaction of
potassium + H2O
Cutting sodium metal
5/24/2017
11
Group 2: Alkaline Earth Metals
Magnesium
Magnesium
oxide
5/24/2017
12
Group 17: The
Halogens (salt
makers)
F, Cl, Br, I, At
5/24/2017
13
Group 18: The Noble (Inert)
Gases
He, Ne, Ar, Kr, Xe, Rn



Lighter than air
balloons
“Neon” signs
Very Unreactive
because they have
full electron levels
5/24/2017
XeOF4
14
Transition Metals (elements)




Families 3-12
Lanthanide series click
Actinide series
Multivalent – can have 1, 2, 3 valence
electrons – depending on what other
atoms they are bonding with.
5/24/2017
15
Transition
Elements
Lanthanides and actinides
Iron in air gives
iron(III) oxide
5/24/2017
16
s, p, d, f blocks
5/24/2017
17
Atomic Radius (size)
•
The trend is that:
•Atoms get smaller going across a period
(Noble gases are the exception)
•Atoms get larger going down a family
5/24/2017
18
Atomic Radius (cont.)
5/24/2017
19
Atomic Radius (cont)
5/24/2017
20
Ionization Energy (IE)


The amount of energy necessary to remove
one or more electrons from an atom in its
gaseous state
Generally:
Metals have low IE
 Non-metals have high IE

5/24/2017
21
Ionization Energy (IE)


5/24/2017
IE increases across a period
IE decreases down a family
22
Electronegativity (EN)

The tendency of an atom to attract electrons (affinity for
electrons)

An atom's electronegativity is affected by both the positive
charge in the nucleus and the distance that its valence
electrons reside from the charged nucleus.

The higher the associated electronegativity number, the
more an element or compound attracts electrons towards it.

Range of EN’s for the elements is 0.7 (Fr) to 4.0 (F)

Trend:

EN increases across a period and decreases
down a family
5/24/2017
23
Electronegativity (EN) Trend
5/24/2017
24
Electronegativity (cont.)
5/24/2017
25
Electron Affinity

5/24/2017
The energy released when an electron is
added to a neutral atom. (exothermic
process) for the first added electron the
process is exothermic
26