Orbital shape-orientationt
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Slide Content
Chapter 5
Models of the
Atom
Models of the
Atom
Bohr’s model…
•Electrons are found in specific
circular paths (orbits) around the
nucleus.
•The electrons have fixed energies
called energy levels. (like rungs on a
ladder)
•The amount of energy required to
move an electron to another energy
level is called a quantum.
•Electrons are found in specific
circular paths (orbits) around the
nucleus.
•The electrons have fixed energies
called energy levels. (like rungs on a
ladder)
•The amount of energy required to
move an electron to another energy
level is called a quantum.
The Quantum Mechanical model
•It is based on the energy and possible
location of an electron.
•how likely it is to find an electron is
described in terms of probability. (ie.
Propeller blades)
•Based on work done by Shrodinger…
•It is based on the energy and possible
location of an electron.
•how likely it is to find an electron is
described in terms of probability. (ie.
Propeller blades)
•Based on work done by Shrodinger…
Atomic Orbitals
•The energy levels of electrons are labeled
by principal quantum numbers (n)
•Each energy sublevel corresponds to an
orbital of a different shape, which describes
where the electron is likely to be found.
•The energy levels of electrons are labeled
by principal quantum numbers (n)
•Each energy sublevel corresponds to an
orbital of a different shape, which describes
where the electron is likely to be found.
Atomic Orbitals
Shapes and
Orientations of
Orbitals
Orientations of
Orbitals
1s Orbital
•Sphere around the nucleus
The one tells you that the electron
is in the orbital closest to the
nucleus
•S tells you about the shape
•Sphere around the nucleus
The one tells you that the electron
is in the orbital closest to the
nucleus
•S tells you about the shape
2s Orbital
•Similar to 1s except the electron is most
likely in the region farther from the nucleus
•Similar to 1s except the electron is most
likely in the region farther from the nucleus
p Orbitals
•At the first energy level there is only the 1s
orbital, after the second energy level there
are 2p orbitals
•Look like dumbbells
•In the three directions
•At the first energy level there is only the 1s
orbital, after the second energy level there
are 2p orbitals
•Look like dumbbells
•In the three directions
Remember….
MAX NUMBER OF ELECTRONS
IN AN ENERGY LEVEL
ENERGY LEVEL MAX # OF ELECTRONS
1 2
2 8
3 18
4 32
5 50
MAX NUMBER OF ELECTRONS
IN AN ENERGY LEVEL
ENERGY LEVEL MAX # OF ELECTRONS
1 2
2 8
3 18
4 32
5 50
Electron
Configuration
A detailed way of showing the
order in which electrons fill in
around the nucleus
Configuration
A detailed way of showing the
order in which electrons fill in
around the nucleus
Electron Configuration
Symbols
1s
2
Energy Level
Sub Level
(s, p, d, f )
# of e
-
in
sub level
Symbols
1s
2
Energy Level
Sub Level
(s, p, d, f )
# of e
-
in
sub level
We must follow 3 rules…
•Aufbau priciple
•Electrons occupy energy levels with lowest
energy first.
•Aufbau priciple
•Electrons occupy energy levels with lowest
energy first.
Pauli exclusion principle
•If 2 electrons occupy the same energy level
they must have opposite spins.
•If 2 electrons occupy the same energy level
they must have opposite spins.
Hund’s rule…
•Electrons that occupy orbitals of the same
energy will have the maximum number of
electrons with the same spin.
•2p
•Electrons that occupy orbitals of the same
energy will have the maximum number of
electrons with the same spin.
•2p
To start we will use orbital filling
diagrams to help us with electron
configurations….
•Example
Boron- has 5 electrons
diagrams to help us with electron
configurations….
•Example
Boron- has 5 electrons
Periodic table arrangement
•the quantum theory helps to explain the
structure of the periodic table.
•n - 1 indicates that the d subshell in period 4
actually starts at 3 (4 - 1 = 3).
s (n)d (n - 1) p (n)
1
2
3
4
5
6
7
f (n -2)
•the quantum theory helps to explain the
structure of the periodic table.
•n - 1 indicates that the d subshell in period 4
actually starts at 3 (4 - 1 = 3).
s (n)d (n - 1) p (n)
1
2
3
4
5
6
7
f (n -2)
•Practice!!!
Summary: p orbitals and d orbitals
p orbitals look like
a dumbell with 3
orientations: p
x
, p
y
,
p
z
(“p sub z”).
Four of the d orbitals resemble two dumbells in a
clover shape. The last d orbital resembles a p
orbital with a donut wrapped around the middle.
p orbitals look like
a dumbell with 3
orientations: p
x
, p
y
,
p
z
(“p sub z”).
Four of the d orbitals resemble two dumbells in a
clover shape. The last d orbital resembles a p
orbital with a donut wrapped around the middle.
1
st
Quantum #
Principle Quantum #
(n)
Specifies the energy level
that the electron is on.
st
Quantum #
Principle Quantum #
(n)
Specifies the energy level
that the electron is on.
2
nd
Quantum #
Specifies the shape of the
sub level .
(l)
nd
Quantum #
Specifies the shape of the
sub level .
(l)
The 3
rd
(m) and 4
th
quantum
numbers (s) …
•Deals with the orbital within the sublevel
and the spin of the electron.
rd
(m) and 4
th
quantum
numbers (s) …
•Deals with the orbital within the sublevel
and the spin of the electron.
Four Energy Sub-Levels
Energy LevelSub-levelType of sub# of
Orbitals
s Sphere 2 1
p Dumbbell 6 3
d 4-Lobed 10 5
f 6-8 Lobed 14 7
Energy LevelSub-levelType of sub# of
Orbitals
s Sphere 2 1
p Dumbbell 6 3
d 4-Lobed 10 5
f 6-8 Lobed 14 7
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