chemical bonding trends of the periodic table chemistry 11
TRANSCRIPT
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Chemical Bonding
Trends of the
Periodic TableChemistry 11
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Trends we already talked about:
Metallic Character:– Increases RIGHT to LEFT, and TOP to
BOTTOMReactivity:
– Shown with Na/K in class and Rb/Cs video
http://ca.youtube.com/watch?v=raC7PgRI_wo
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Trends of the Periodic Table
3 factors are usually discussed when explaining trends
– Increasing nuclear charge– Increasing “n” value (outer most filled shell)– Inter-electron repulsion (usually not as
important as the other 2)
Important to remember that trends do not always work! – they are generalizations
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Along a Period (from left to right):- atomic number increases (more +ve charges)
- # of shielding electrons stay the same (any electrons closer to the nucleus)
Shielding Electrons: - electrons in lower energy orbitals that block the pull of the protons
- campfire analogy – if someone/ something is between you and the fire, you feel less heat!
Increasing Nuclear Charge
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Increasing Nuclear Charge
Down the Table (from Top to Bottom):- atomic number increases (more +ve
charges)
- # of shielding electrons increases
(more people are blocking the fire)
Overall: pull on electrons from positive charge
(protons) doesn’t drastically increase
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Increasing “n” Value
As more electrons are added, more orbitals are occupied that are higher energy
Higher energy orbitals are FARTHER away from the nucleus
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Consider a Bohr Diagram:as you add more electrons, they are farther
away from the nucleus
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Inter-electron repulsion
As you add more electrons to an atom or orbital, they repel each other (move farther apart)
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1) Atomic Radius
Use the 3 factors to predict the trend– From left to right– From top to bottom
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Atomic Radius - Left to Right
Increasing nuclear charge– More protons, pull electrons closer
atom is smaller Increasing “n” value (outer most filled shell)
– Stays the same in the same period no change
Inter-electron repulsion– More electrons, electrons push farther away
atom is larger
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So what actually happens?
Overall: as you go from left to right along the periodic table…
The atomic radius DECREASES
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Atomic Radius - Top to Bottom
Increasing nuclear charge– More protons, but more shielding electrons
atom ~ same size Increasing “n” value (outer most filled shell)
– Increases with each period you go down the table atom is larger
Inter-electron repulsion– More electrons, electrons push farther away
atom is larger
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So what actually happens?
Overall: as you go from the top to the bottom of the periodic table…
The atomic radius INCREASES
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Examples:
What is the largest atom?
FrWhich is larger:
– F or B ?– Ba or Be ?– Sr or P ?
B
BaSr
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What happens in reality:
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What About Ions?
Cations: – Lose outer electrons
makes smaller, less electron repulsion, net positive charge pulls electrons closer
A CATION is SMALLER than the atom it forms from
Anions:– Gain electrons
More electrons to repel each other
An ANION is LARGER than the atom it forms from
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Examples:
Sodium (cation)Chlorine/Chloride (anion)
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2) Ionization Energy:
Energy needed to remove an electron from an atom
First Ionization:
X(g)→ X+(g) + e-
It ALWAYS takes energy to remove an electron (break its attraction to the nucleus)
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Ionization Energy
Use the 3 factors to predict the trend– From left to right– From top to bottom
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Ionization Energy – Left to Right
Increasing nuclear charge– More protons, attract electrons more
electron is harder to remove Increasing “n” value (outer most filled shell)
– Stays the same in the same period no change
Inter-electron repulsion– More electrons, electrons push farther away
electron is easier to remove
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So what actually happens?
Overall: as you go from left to right along the periodic table…
The Ionization Energy INCREASES
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Ionization Energy - Top to Bottom
Increasing nuclear charge– More protons, but more shielding electrons
same attraction to electrons
Increasing “n” value (outer most filled shell)– Increases with each period you go down the table
electrons are farther away from protons and
easier to remove
Inter-electron repulsion– More electrons, electrons push farther away
electrons easier to remove
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So what actually happens?
Overall: as you go from the top to the bottom of the periodic table…
The Ionization energy DECREASES
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Ionization Energy Cont.
MINIMUM for ALKALI METALS (easiest to remove electrons)– Have 1 electron in outer orbital, if removed are left
with a full outer orbital (Noble Gas configuration)
MAXIMUM for NOBLE GASES– Have full outer orbitals, so are especially stable
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As you already know…
Representative elements tend to gain or lose electrons until they become isoelectronic with the nearest Noble gas
(ie. They have the same
electron configuration!)
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So…
Once an atom has become isoelectronic with a Noble Gas (has a full outer orbital) it is very hard to remove another electron
ionization energy for that ion is VERY high
Each successive ionization takes more energy– more net positive charge pulling on each electron, so they
are harder to remove
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Examples:
Which atom has the highest ionization energy?
He Which has the lowest ionization energy :
– F or B ?– Ba or Ba2+ ?– Sr or P ?
Answers: B, Ba, Sr
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3) Electronegativity
The ability of an atom to attract electrons in a chemical bond
If an atom has HIGH electronegativity, it strongly attracts electrons from other atoms and might even remove the electron completely (forming ions)
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So, what is the trend?
Use the 3 factors to predict the trend– From left to right– From top to bottom
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Electronegativity – Left to Right
Increasing nuclear charge– More protons, attract electrons more
easier to remove electrons from other atoms Increasing “n” value
– Stays the same in the same period no change
Inter-electron repulsion– Adding more electrons would cause more inter-
electron repulsion harder to remove electrons from other atoms
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So what actually happens?
Overall: as you go from left to right along the periodic table…
The Electronegativity
INCREASES
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Electronegativity - Top to Bottom
Increasing nuclear charge– More protons, but more shielding electrons
not distinct change Increasing “n” value (outer most filled shell)
– Increases with each period you go down the table– electrons are farther away from protons
harder to remove electrons from other atoms
Inter-electron repulsion– More electrons, electrons push farther away
harder to remove electrons from other atoms
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So what actually happens?
Overall: as you go from the top to the bottom of the periodic table…
The Electronegativity DECREASES
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Measuring Electronegativity:
Pauling scale is most commonly used to quantify electronegativity
Pauling assigned Fluorine (the most electronegative element) a value of 4.0
Values range down to Cs and Fr, which are the least electronegative (value of 0.7)
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Electronegativity Cont…
VERY similar to ELECTRON AFFINITY - the energy change when an electron is accepted
– they follow the same trend NOTE: link to ionization energy
– If the atom strongly attracts other electrons, it also strongly attracts its own valence electrons
if an atom has a high electronegativity, it
will also have a high ionization energy
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TREND SUMMARYIonization Energy/Electronegativity/Electron
Affinity Increase
Atomic Radii Decrease
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STOP FOR TODAY!
More tomorrow!