Transcript Periodic Table - Red Deer Public

Periodic Table
Larry Scheffler
Lincoln High School
The Periodic Table-Key Questions
What is the periodic table ?
What information is obtained from the table ?
How can elemental properties be predicted
based on the Periodic Table?
Periodic Table
• The development of the periodic table brought a
system of order to what was otherwise an
collection of thousands of pieces of
information
• The periodic table is a milestone in the
development of modern chemistry. It not only
brought order to the elements but it also
enabled scientists to predict the existence of
yet undiscovered
elements.
Early Attempts to Classify
Elements
Dobreiner’s Triads (1827)
• Classified elements in sets of three
having similar properties.
• Found that the properties of the middle
element were approximately an average
of the other two elements in the triad.
Dobreiner’s Triads
Element Atomic
Mass
Cl
Br
I
Ca
Sr
Ba
35.5
79.9
126.9
40.1
87.6
137.3
Average Density
81.2
88.7
1.56
3.12
4.95
1.55
2.6
3.5
Average
3.25
2.53
Note: In each case, the numerical values for the atomic mass and
density of the middle element are close to the averages of the other
two elements
Newland’s Octaves -1863
John Newland attempted to
classify the then 62 known
elements of his day.
He observed that when classified
according to atomic mass, similar
properties appeared to repeat for
about every eighth element
His Attempt to correlate the
properties of elements with musical
scales subjected him to ridicule.
In the end his work was
acknowledged and he was
vindicated with the award of the
Davy Medal in 1887 for his work.
Dmitri Mendeleev
Dmitri Mendeleev is
credited with creating
the modern periodic
table of the elements.
He gets the credit
because he not only
arranged the atoms,
but he made
predictions based on
his arrangement
which were shown to
be quite accurate.
Mendeleev’s Periodic Table
• Mendeleev organized all of the elements into
one comprehensive table.
• Elements were arranged in order of
increasing mass.
• Elements with similar properties were placed
in the same row.
Mendeleev’s Periodic Table
Mendeleev’s Periodic Table
Mendeleev left some blank spaces in his periodic table.
At the time the elements gallium and germanium were
not known. He predicted their discovery and estimated
their properties
Periodic Table
The Periodic Table has undergone several modifications
before it evolved in its present form. The current form
is usually attributed to Glenn Seaborg in 1945
Periodic Table Expanded View
The Periodic Table can be
arranged by energy sub levels
The s-block is Group IA and & IIA,
the p-block is Group IIIA - VIIIA.
The d-block is the transition
metals, and the f-block are the
Lanthanides and Actinide metals
The way the periodic table
usually shown is a compressed
view. The Lanthanides and
actinides (F block)are cut out and
placed at the bottom of the table.
Periodic Table: Metallic
Arrangement
Layout of the Periodic Table: Metals vs.
nonmetals
1
IA
1
18
VIIIA
2
IIA
13
IIIA
14
IVA
15
VA
16
VIA
17
VIIA
2
3
4
5
6
7
3
IIIB
4
IVB
5
VB
6
VIB
7
VIIB
8
9
VIIIB
Metals
10
11
IB
12
IIB
Nonmetals
The Three Broad Classes Are Main,
Transition, Rare Earth
Main (Representative), Transition metals,
lanthanides and actinides (rare earth)
Reading the Periodic Table:
Classification
Nonmetals, Metals, Metalloids, Noble gases
Periodic Table:
The electron
configurations are inherent in the
periodic table
1
IA
1
2
3
4
5
6
7
H
1s1
18
VIIIA
2
IIA
Li Be
2s1 2s2
Na Mg
3s1 3s2
13
IIIA
B
2p1
3
IIIB
4
IVB
Sc
3d1
Rb
5s1
Ca
4s2
Sr
5s2
Y
4d1
V
Ti
Cr Mn Fe Co
3d2 3d3 4s13d5 3d5 3d6 3d7
Zr Nb Mo Tc Ru Rh
4d2 4d3 5s14d5 4d5 4d6 4d7
Cs
6s1
Ba
6s2
La
5d1
Hf Ta W Re Os
5d2 5d3 6s15d5 5d5 5d6
Fr
7s1
Ra
7s2
Ac Rf
6d1 6d2
K
4s1
5
VB
6
VIB
7
VIIB
Db Sg Bh
6d3 7s16d5 6d5
8
9
VIIIB
14
IVA
15
VA
16
VIA
17
VIIA
B
1
2p
C
N
O
2
3
2p 2p 2p4
F
2p5
Ne
2p6
Cl
3p5
Ar
3p6
He
1s2
10
11
IB
12
IIB
Ni
3d8
Cu
4s13d10
Ni
4d8
5s14d10
Zn Ga Ge
3d10 4p1 4p2
Cd
In Sn
10
4d
5p1 5p2
As Se Be
4p3 4p4 4p5
I
Sb Te
5p3 5p4 5p5
Kr
4p6
Xe
5p6
Hg
Tl Pb
5d10 6p1 6p2
Bi Po At
6p3 6p4 6p5
Rn
6p6
Ir
Ni
7
5d 5d8
Hs Mt
6d6 6d7
Ag
Au
6s15d10
Al Si
3p1 3p2
S
P
3
3p 3p4
Periodic Table Organization-----Groups or Families
Vertical columns in the periodic table are known as groups or
families The elements in a group have similar electron
configurations
Periodic Table Organization
---- Periods
Horizontal Rows in the periodic table are known as Periods The
Elements in a period undergo a gradual change in properties as
one proceeds from left to right
Periodic Properties
Elements show gradual changes in certain
physical properties as one moves across a
period or down a group in the periodic table.
These properties repeat after certain
intervals. In other words they are PERIODIC
Periodic properties
include:
-- Ionization Energy
-- Electronegativity
-- Electron Affinity
-- Atomic Radius
-- Ionic Radius
Trends in Ionization Energy
Ionization energy is the energy required to
Remove an electron from an atom
Ionization energy
increases across a period
because the positive
charge increases.
Metals lose electrons
more easily than
nonmetals.
Nonmetals lose electrons
with difficulty (they like to
GAIN electrons).
Trends in Ionization Energy
The ionization energy
increases UP a group
Atoms near the top of a
group are effected less
by the Shielding Effect.
Ionization Energies
Ionization Energies are Periodic
Electronegativity
Electronegativity
is a measure of
the ability of an
atom in a
molecule to
attract electrons
to itself.
This concept was first proposed by Linus
Pauling (1901-1994). He later won the Nobel
Prize for his efforts
Periodic Trends:
Electronegativity
In a group: Atoms with fewer
energy levels can attract
electrons better (less shielding).
So, electronegativity increases
UP a group of elements.
In a period: More protons, while
the energy levels are the same,
means atoms can better attract
electrons. So, electronegativity
increases RIGHT in a period of
elements.
Trends in Electronegativity
Electronegativity
Electronegativity
The Electron Shielding Effect
Electrons
between the
nucleus
and the
valence
electrons
repel each
other
making the
atom larger.
Atomic Radius
The radius increases down a group.
Because electrons are added further from the
nucleus, there is less attraction. This is due to
additional energy levels and the shielding
effect. Each additional energy level “shields”
the electrons from being pulled in toward the
nucleus.
The radius decreases on going across a period.
Atomic Radius
The radius decreases across a period
owing to increase in the positive charge
from the protons. Each added electron
feels a greater and greater + charge
because the protons are pulling in the
same direction, where the electrons are
scattered.
Large
Small
Core Charge
The concept of core charge can be used
to better understand trends in atomic radii.
Core charge = nuclear charge (ie: number
of protons) – number of inner-shell
electrons.
Eg: Na (s) 11p – 10e = +1
Core Charge
The greater the core charge, the greater
the attraction of protons to electrons.
greater core charge means SMALLER
atomic radii.
Core charge increases across period 3 so
atomic radii decreases.
Atomic Radius
Atomic Radius
Trends in Ion Sizes
Radius in pm
Cations
Cations (positive ions) are smaller
than their corresponding atoms
Ion Sizes
Does the size go up or
down when gaining an
electron to form an
anion?
Ionic Radius
+
Li,152 pm
3e and 3p
Li + , 78 pm
2e and 3 p
Forming a
cation.
CATIONS are SMALLER than the
atoms from which they come.
The electron/proton attraction has
gone UP (increased core charge)
and so the radius DECREASES.
Ionic Radius for Cations
Positve ions or
cations are
smaller than the
corresponding
atoms.
Cations like
atoms increase
as one moves
from top to
bottom in a
group.
Anions
Anions (negative ions) are larger
than their corresponding atoms
Ionic Radius-Anions
F 64 pm
9e- and 9p+
F- , 133 pm
10 e- and 9 p+
Forming an anion.
ANIONS are LARGER than the atoms
from which they come.
The electron/proton attraction has gone
DOWN (core charge decreases) and so
size INCREASES.
Trends in ion sizes are the same as atom
sizes.
Ionic Radii for Anions
Negative ions or
anions are larger
than the
corresponding
atoms.
Anions like atoms
increase as one
moves from top
to bottom in a
group.
Ionic Radius for an
Isoelectronic Group
Isoelectronic ions
have the same
number of electrons.
The more negative
an ion is the larger it
is and vice versa.
Summary of Periodic Trends
Properties of the Third Period
Oxides
Properties of the Third Period
Chlorides
The Periodic Table--Summary
The periodic table is a classification
system. Although we are most
familiar with the periodic table that
Seaborg proposed more than 60
years ago, several alternate designs
have been proposed.
Alternate Periodic Tables
Alternate Periodic Tables II