Electron Configuration for 9th grade students
AirinneGuardo1
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Aug 13, 2024
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About This Presentation
Electron Configuration
Slide Content
Electron Configuration
The set of numbers used to describe the position and
energy of the electron in an atom.
The set of numbers used to describe the position and
energy of the electron in an atom.
From Previous Topic…
This means that if we know the number of protons (atomic number) it
is easily to know the number of electrons for an atom.
Neutral Atom
# of Protons (+) = # of Electrons (-)
Ions Could be (+) or (-) charged.
Are formed when an
atom loses or gains
electrons.
(+) are cations(-) are anions
Less e
-
More e
-
This means that if we know the number of protons (atomic number) it
is easily to know the number of electrons for an atom.
Neutral Atom
# of Protons (+) = # of Electrons (-)
Ions Could be (+) or (-) charged.
Are formed when an
atom loses or gains
electrons.
(+) are cations(-) are anions
Less e
-
More e
-
The exact position and momentum of an electron
cannot be simultaneously determined…
But we can predict it by using the electron configuration.
Uncertainty Principle proposed by Heisenberg
Erwin Schrödinger
developed
the Quantum Mechanical model
It can be used to calculate the probability of
an electron being found at a given position.
It has 4 numbers that can describe the position and energy of
electrons, they are called Quantum Numbers
cannot be simultaneously determined…
But we can predict it by using the electron configuration.
Uncertainty Principle proposed by Heisenberg
Erwin Schrödinger
developed
the Quantum Mechanical model
It can be used to calculate the probability of
an electron being found at a given position.
It has 4 numbers that can describe the position and energy of
electrons, they are called Quantum Numbers
Quantum Numbers
Example:
An atom is in period 2, and it is in group VIA.
The quantum numbers related will be:
n = 1,2
l = 0,1
m
l = -1,0,1
l = 0 → s
l = 1 → p
l = 2 → d
l = 3 → f
Two energy levels or shells.
Two orbitals s, p.
Three orbital Orientations
Example:
An atom is in period 2, and it is in group VIA.
The quantum numbers related will be:
n = 1,2
l = 0,1
m
l = -1,0,1
l = 0 → s
l = 1 → p
l = 2 → d
l = 3 → f
Two energy levels or shells.
Two orbitals s, p.
Three orbital Orientations
Vocabulary you must consider…
Key Words
Shell
Subshell
Orbital
Quantum numbers
Period
Group
Valence Electrons
Rows on the periodic table.
Columns on the periodic table.
Electrons in the last shell
Also called energy level.
Key Words
Shell
Subshell
Orbital
Quantum numbers
Period
Group
Valence Electrons
Rows on the periodic table.
Columns on the periodic table.
Electrons in the last shell
Also called energy level.
Electron Configuration
Shows you the way how
electrons are organized
in the atom.
Electrons are distributed in energy levels, each energy level can
have a maximum of energy sublevels, and each sublevel can
have a maximum of electrons.
Energy
Level
Sublevel
Maximum of
electrons
1 s 2
2 s, p 8
3 s, p, d 18
4 s, p, d, f32
Interpretation
This atom has 2 energy
levels, it has 9 total electrons
and 7 valence electrons, 2 in
orbital s and 5 in orbital p
Shows you the way how
electrons are organized
in the atom.
Electrons are distributed in energy levels, each energy level can
have a maximum of energy sublevels, and each sublevel can
have a maximum of electrons.
Energy
Level
Sublevel
Maximum of
electrons
1 s 2
2 s, p 8
3 s, p, d 18
4 s, p, d, f32
Interpretation
This atom has 2 energy
levels, it has 9 total electrons
and 7 valence electrons, 2 in
orbital s and 5 in orbital p
How can you write the electron configuration of an atom?
Following the filling order proposed by the Aufbau’s principle.
If you know the atomic number…
1.Find the number of electrons (recall
that in neutral atoms the number of
electron are the same of protons).
2.Follow the filling order until complete
the total number of electrons.
Remember that there is a maximum of
electrons per each orbital but not a
minimum, and you cannot move to the
next orbital without complete the
previous one.
Example and Practice:
Write the electron
configuration of each
of the following atoms
or ions:
1.Ca, Z=20
2.Fe, Z=26
3.P
-3
, Z=15
4.Sr
+2
, Z= 38
5.Zr, Z= 40
Following the filling order proposed by the Aufbau’s principle.
If you know the atomic number…
1.Find the number of electrons (recall
that in neutral atoms the number of
electron are the same of protons).
2.Follow the filling order until complete
the total number of electrons.
Remember that there is a maximum of
electrons per each orbital but not a
minimum, and you cannot move to the
next orbital without complete the
previous one.
Example and Practice:
Write the electron
configuration of each
of the following atoms
or ions:
1.Ca, Z=20
2.Fe, Z=26
3.P
-3
, Z=15
4.Sr
+2
, Z= 38
5.Zr, Z= 40
How can you write the electron configuration of an atom?
If you know the location of the atom in the Periodic Table…
1.The last energy level tells you the period
where the element is located.
2.The last orbital tells you the block (s,p,d or
f).
3. The number of valence electrons tell you
the group (if the element is
representative).
4.The electrons on the last orbital tells you
the group in the block.
Example and Practice:
Write the electron configuration of each of the following atoms:
1.Group VIA, Period 3
2.Group IIA, period 4
3.Group VB, Period 4
If you know the location of the atom in the Periodic Table…
1.The last energy level tells you the period
where the element is located.
2.The last orbital tells you the block (s,p,d or
f).
3. The number of valence electrons tell you
the group (if the element is
representative).
4.The electrons on the last orbital tells you
the group in the block.
Example and Practice:
Write the electron configuration of each of the following atoms:
1.Group VIA, Period 3
2.Group IIA, period 4
3.Group VB, Period 4
Let’s Practice
1. Write the electron configuration of
the following atoms or ions.
Mn, Z= 25
Zn, Z= 30
In, Z= 49
Te
-2
, Z= 52
Rb
+1
, Z= 37
2. Locate in the blank periodic table
the elements that correspond to the
following electron configurations
1s
2
2s
2
2p
5
1s
2
2s
2
2p
6
3s
2
3p
6
4s
2
3d
8
3. Indicate the electron configuration
of elements X and Y from the blank
periodic table.
1. Write the electron configuration of
the following atoms or ions.
Mn, Z= 25
Zn, Z= 30
In, Z= 49
Te
-2
, Z= 52
Rb
+1
, Z= 37
2. Locate in the blank periodic table
the elements that correspond to the
following electron configurations
1s
2
2s
2
2p
5
1s
2
2s
2
2p
6
3s
2
3p
6
4s
2
3d
8
3. Indicate the electron configuration
of elements X and Y from the blank
periodic table.
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