unit 3 the periodic table, electron configuration, &periodic trends
TRANSCRIPT
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Unit 3 – The Periodic Table, Electron Configuration,
&Periodic Trends
Chapters 4 & 5
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Creation of the Periodic Table
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Mendeleev’s Table
Dmitry Mendeleev
He created the first periodic table based on the properties of the elements
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Create a Periodic Table Activity
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Activity Compared to Real Table
Transition
metals
missing!
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Electron Configuration
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Electrons are found in energy levels
Fill the lowest possible energy levels 1st
and move outward as the energy levels fill up
n=1 is lowest energy level (closest to the nucleus)
Energy levelscalled “rings” in lower level classes
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Each Energy Level is Different…
1st Energy Level- can hold 2 electrons
E-
E-Sphere
shape
1s2
1st energy
level
# of
electrons
This is how you write out the location of the electrons
Each energy level has specific orbitals (3- D pathways) where electrons can be found
Each energy level can hold a specific # of electrons
- Puts them in “S” shaped orbital (always only hold 2 electrons).
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2nd Energy Level
Can hold up to 8 electrons Has an s-shaped orbital & a p-shaped
orbital The s-orbital always fills up 1st!
e-
e-
e- e-
e-
e- e-
e-
2s2 2p6
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3rd Energy Level
Can hold up to 18 Electrons
Has s, p and d orbitals
NOTE: The 4s orbital is actually at a lower energy, so electrons will fill it before the 3d orbital!
e-
e-
e- e-e-
e- e-
e-
e-e-e-e-
e-e-
e-e-
e-e-
3s2 3p6 3d10
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4th Energy Level-
Has 4 different types of orbitals (s,p,d & f)
f- orbitals are the most complicated
7 possible “f” orientations
14 electrons can fit in f orbitals (2 electrons x 7 orientations = 14)
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One little trick…
Here’s the order that
an atom will fill it’s
electrons.
Starts with the easiest,
lowest energy level to
put electrons and
moves up.
Diagram on pg 150 of your text book
Whoa… skips from 3p to 4s
to 3d?Based on energy, it’s easier to fill the “s” orbital on 4th energy level then the complicated “d” on the 3rd.
Look further up the fill chart and you’ll see more of this.
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n=7
n=6
n=5
n=4
n=3
n=2
n=1
Order that Orbitals Fill Up…don’t memorize!!!
7p6
6d10
5f14
7s2
6p6
5d10
4f14
6s2
5p6
4d10
5s2
4p6
3d10
4s2
3p6
3s2
2p6
2s2
1s2
•You will learn to use your periodic table to figure this out!
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Writing Electron
Configurations
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Orbital Notation & Electron Configuration Notation
Ex: E. Config. for Fluorine (9 electrons)
1s2 2s2 2p6
Write the order that they fill the electrons
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More Practice (a harder one)
Ex: Titanium (22 electrons)
E. Configuration Notation
1s2 2s2 2p6 3s2 3p6 4s2 3d2
Remember the fill order, 4s before 3d!
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Using the Periodic Table for E. Config.
S Block
d Block (n-1)
(Energy level -1)
p Block
f block (n-2)
Noble
Gases
(last
column)
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E. Configuration with Periodic Table
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Practice Writing E. Configs.
Carbon
Magnesium
Iron
Iodine
Challenging:
Gold
Even more
challenging:
Plutonium
1s22s22p2
1s22s22p63s2
1s22s22p63s23p64s23d6
1s22s22p63s23p64s23d104p65s24d105p5
1s22s22p63s23p64s23d104p65s24d105p66s24f145d9
1s22s22p63s23p64s23d104p65s24d105p66s24f145d106p67s26d15f5
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Noble Gas Notation- the “short cut”
For Na
E. config: 1s2 2s2 2p6 3s1
Noble Gas Not.: [Ne] 3s1
For Cl
E. config: 1s2 2s2 2p6 3s1
Noble Gas Not.: [Ne] 3s2 3p5
*Start at the noble gas ABOVE the element and
do the configuration from there.
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Noble Gas Notations through the D
and F Blocks
Noble Gas Notation for Br
[Ar] 4s2 3d10 4p5
Remember d block is n-1
(row 4 -1 =3)
Noble Gas Notation for Pb
[Xe] 6s2 4f14 5d10 6p2
Remember f block is n-2 (row
6 -2 =4)
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Using Noble Gas Notation
The noble gas notation can tell you the identity
of an element
[He]2s22p2
Period #
block
Element identity = Carbon
Which element in
the block
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Decoding Noble Gas Notation
Period Block Group Identity
[Ne]3s2
[Ar]4s23d8
[Xe]6s24f145d106p2
3
4
6
S
d
p
2
10
14
Mg
Ni
Pb
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Electrons
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History Behind Electron Configuration
Certain elements emit distinct, visible light when heated in a flame. But why?
CopperStrontium
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What is light? It’s a form of energy
The Electromagnetic Spectrum (see image) shows other types of energy in our environment.
Violet Light =
highest frequency
Red Light =
lowest frequency
Visible light makes up only a small portion of the spectrum
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Spectroscopic Analysis
When white light is scattered through a prism (or spectroscope), all of the colors of the visual spectrum can be seen. This is seen as a “continuous spectrum” (without
breaks)
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Electron Transitions
Electrons can “jump” to higher energy levels when atoms are exposed to an energy source
This is known as the “excited state”
When the electrons fall back down, they release that energy in the form of light
This is known as the “ground state”
Energy
Light
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Energy Transitions for Hydrogen
Shows how the 1 electron in
hydrogen can go up and
down in different energy
levels.
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Emission Spectroscopy
Because atoms have different numbers of electrons, different types of atoms emit specific wavelengths and have a different pattern of spectral lines This is the “line-emission spectrum”
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Spectroscopy
Argon Hydrogen
Elements have a unique set of spectral lines that allows us to identify them
This is how we know the sun contains H and He, even though we’ve never been there.
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Valence Electrons, Octet Rule, and Ions
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These 3 atoms have similar reactivity and chemical behavior.A) where are they located on the periodic table?B. What do you think might be responsible for their similar properties?
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Valence Electrons
Valence Electrons -
electrons in the outer-
most energy level
These are the electrons
that interact with other
atoms
They determine an atom’s
chemical reactivity
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Valence Electrons & E. Congfig.
In the electron configuration,
the valence electrons are
found in the s & p orbitals of
the highest energy level.
Examples:
Cl: [Ne]3s23p5
Has 7 valence electrons
Fe: [Ar]4s23d6
Has 2 valence electons
Sn: [Kr]5s24d105p2
Has 4 valence electrons
1s22s22p6
3s23p7
Chlorine
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Valence Electrons and the Periodic Table
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Figuring out # of Valence Electrons
Using the Periodic Table (Short Cut)The column that they are in is the number of valence electrons an atom has. (EXCEPTION: This does not work for the D Block)
2 Valence Electrons
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The Octet Rule
Atoms tend to gain, lose,
or share electrons to
“fill” their valence shell.
Exceptions: H & He
abide by the “duet” rule.
They only need 2
electrons in their valence
shell because the 1st
energy level only holds 2
electrons
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Ions
Ions are charged particles or atoms that have gained or lost electrons to “fill” their octet.
Anions have a negative charge. They have gained electrons &
electrons are negative.
They have more electrons than protons.
Cations have a positive charge.
They have lost electrons.
They have more protons than electrons
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Ion Examples
Potassium has 1 valence
electron, what ion will it
form?
It will lose 1 electron and
form the ion K+
Sulfur has 6 valence
electrons, what ion will it
form?
It will gain 2 electrons
and form S2-
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Joke
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joke
Two atoms walk into a bar.One atom stops and says to the other, "I think I just lost an electron."
The second atom asks "Are you sure?"
The first atom replies, "I'm positive!"
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Organization of the Periodic
Table
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Characteristics of the Periodic Table
Elements are arranged in order of increasing atomic number
Elements with similar properties appear at regular intervals (“periods” or rows)
Elements with similar properties fall in the same column (“group” or “family”)
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Periods (rows)F
am
ilie
s/ g
rou
ps
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Organization of the Periodic Table
Metals – excellent conductors of heat & electricity Alkali metals – Group 1 Alkaline-earth metals – Group 2 Transition metals – Groups 3-12
Metalloids – properties of metals & non-metals (along zigzag)
Non-Metals- poor conductors of heat & electricity. Usually brittle solids or gases. Halogens – Group 17 Noble gases – Group 18 Other solid non-metals – above metalloids
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Alkali Metals
Group 1 of the Periodic Table
All have 1 valence electron
Highly reactive (with water)
Silvery in appearance
Soft enough to be cut with a knife
e-
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Group 2 of the Periodic Table
All have 2 valence electrons
Harder, denser, stronger the alkali metals
Also reactive, but not as much as alkali metals
e-
e-
e-e-
Alkaline-Earth Metals
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Groups 3-12 of the periodic table
All have 2 valence electrons
Transition Metals
e-
e-
e-e-
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Group 17 of the Periodic Table
All have 7 valence electrons
Despite chemical similarities, some are solids, liquids, and gases
Most reactive non-metals
React with metals to make salts
Halogens
e-
e-
e-e-
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Group 18 of the Periodic Table
All have 8 valence electrons, a complete octet
Total lack of reactivity, inert
“too noble to react with anyone else”
Noble Gases
e-
e-
e-e-
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PERIODIC TRENDS
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Periodic Trends
Characteristics of elements are predictable based on their location on the Periodic Table.
These characteristics are dependent on the structure of the atom and the location of its electrons.
Periodic Trends include: Reactivity
Atomic radius (size)
Ionization energy
Electronegativity
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Atomic Radii
Size of the atom –
measured using half the
distance between the
nuclei of two identical
atoms bonded together
Trend – decreases across
a period, increases down
a group •Largest atom = Francium
•Smallest atoms = Helium
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Atomic Radii
As you move across a period, you are adding electrons to the same energy level, but also adding more protons
These protons attract the electron cloud closer, decreasing the atomic radius.
As you move down a group, you add energy levels. Each energy level is farther
away from the nucleus, increasing the atomic radius.
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Ionization Energy (IE)
The energy required to remove one electron from a neutral atom
Trend – increases across a period, decreases down a group
Ex: Noble Gases require a ton of energy to lose an electron because they are “happy” with their full shells
Ex: Alkali Metals have low ionization energies because they want to lose their outer electron.
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Ionization Energy
Increase
De
cre
ase
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Electronegativity
The ability of an atom to attract electrons (how “greedy” it is)
Trend – increase across a period, decrease down a group
Ex: Flourine really wants another electron to get to the octet rule so it has a very high electronegativity. Anything close to Fluorine will have a high electronegativity
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Electronegativity
Increase
Decre
ase
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Heavy metal (joke)
thinkgeek.com
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Mental_Floss magazine