Electrons in Atoms - Weeblymsvaliquette.weebly.com/uploads/4/6/4/7/46476575/... · 2019-09-24 ·...
Transcript of Electrons in Atoms - Weeblymsvaliquette.weebly.com/uploads/4/6/4/7/46476575/... · 2019-09-24 ·...
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ELECTRONS IN ATOMS
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LIMITATIONS OF RUTHERFORD’S ATOMIC MODEL
•Did not explain the chemical properties of atoms
– For example, it could not explain why metals or compounds of
metals give off characteristic colors when heated in a flame
– It could not explain why objects might change color when
heated to higher temperatures
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T H E H Y D R O G E N AT O M
A N D B O H R
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THE BOHR
MODEL
• In 1913 Niels Bohr
developed a new atomic
model
• Experiment: Tested
Hydrogen atoms
• Conclusion: Bohr
proposed electrons
orbit around the
nucleus in fixed energies
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ENERGY LEVELS
• Fixed energy levels of an electron are similar to rungs of a ladder
– Electrons cannot exist between energy levels
– To move from one energy level to the next, an atom must gain or lose the correct amount of energy
– A quantum of energy is the amount of energy required to move an electron from one energy level to the next
• The amount of energy an electron
gains or loses is not always the same
– Higher energy levels are closer together
– It takes less energy to move from one
rung to the next near the top of the
ladder
– The higher the energy level occupied by
an electron, the less energy it takes the
electron to move from that energy level
to the next higher energy level
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THE HYDROGEN ATOM
• Excited State (based off electron placement around nucleus)
– Bohr proposed that an electron moves into an orbit or higher
energy level further from the nucleus when an atom absorbs
energy
•Ground State
– Electron returns here (home) after being excited
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THE HYDROGEN SPECTRUM
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T H E Q U A N T U M M E C H A N I C A L
M O D E L A N D S C H R O D I N G E R
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THE QUANTUM MECHANICAL MODEL• Starting Point: Both Bohr and Rutherford’s model of the atom described the
path of a moving electron
• Experiment: Austrian physicist Erwin Schrodinger used calculations and results
to devise and solve a mathematical equation describing the behavior of the
electron in a hydrogen atom
• Conclusion: There is a probability that describes how likely it is to find an
electron in a particular location around the nucleus of an atom
– Location is described as an ‘electron cloud’ that is dense and the probability of finding an
electron there is high
– For each energy level, the Schrodinger equation also leads to a mathematical expression
called an atomic orbital
• Model: Devised from the mathematical solutions to the Schrodinger equation
which is the modern description of the electrons
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T H E Q UA N T U M M E C H A N I C A L
M O D E L D E T E R M I N E S T H E
A L L OW E D E N E R G I E S A N
E L E C T R O N C A N H AV E A N D
H OW L I K E LY I T I S TO F I N D
T H E E L E C T R O N I N VA R I O U S
L O C AT I O N S A R O U N D T H E
N U C L E U S
The propeller blade has the
same probability of being
anywhere in the blurry
region, but you cannot tell
its location at any instant.
The electron cloud of an
atom can be compared to a
spinning airplane propeller.
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ATOMIC ORBITALS (CLOUDS)
• An atomic orbital is often
thought of as a region of
space in which there is a
high probability of finding
an electron.
– The probability of finding
an electron within the
‘electron cloud’ is 90%
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Like the Bohr model, the quantum mechanical model
restricts the energy of electrons to certain values. Unlike the
Bohr model, the quantum mechanical model does not
specify an exact path the electron takes around the nucleus.
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O R B I TA LSS , P, D, A N D F
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S - O R B I TA L
• S-orbitals are
spherically shaped
• Smaller atoms have
fewer electrons and
take up less space
• Larger atoms have
more electrons and
take up more space
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p-orbitals are
“dumbell” shaped.
z-axis
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p-orbitals are
“dumbell” shaped.
x-axis
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p-orbitals are
“dumbell” shaped.
y-axis
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p-orbitals together
x, y, & z axes.
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ATOMIC ORBITALS
•Different atomic orbitals are denoted by letters.
• Four of the five d orbitals have the same shape, but
different orientations in space.
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ATOMIC ORBITALS
•Describe the probability of finding an electron at various
locations around the nucleus
– s orbitals: groups 1 and 2 on the periodic table
– p orbitals: groups 13-18
– d orbitals: groups 3-12
– f orbitals: lanthanide and actinide series
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ORBITAL SUBLEVELS
• Each energy sublevel (subshells) correspond to one or
more orbitals of different shapes.
– The orbitals describe where an electron is likely to be found.
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Summary of Principal Energy Levels and Sublevels
Principal energy
level
Number of
sublevelsType of sublevel
Maximum
number of
electrons
n = 1 1 1s (1 orbital) 2
n = 2 2 2s (1 orbital), 2p (3 orbitals) 8
n = 3 33s (1 orbital), 3p (3 orbitals),
3d (5 orbitals)18
n = 4 44s (1 orbital), 4p (3 orbitals),
4d (5 orbitals), 4f (7 orbitals)32
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SUBLEVELS
• The Principal Quantum Number, n, always equals the number of
sublevels within that principal energy level
• The number of orbitals in a principal energy level is equal to n2
• A maximum of two electrons can occupy an orbital
• Therefore, the maximum number of electrons that can occupy a
principal energy level is given by the formula 2n2
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VA L E N C E E L E C T R O N S
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VA L E N C E
E L E C T R O N S
• The electrons in the outermost,
furthest from the nucleus, electron
shell are called valence electrons
• The number of valence electrons in
orbitals s and p (not transition
metals) is the same as the group
number
• The number of electron shells with
electrons in them is the same as the
period number
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NOBLE GAS STABILITY
• Noble gases are usually unreactive
• This is because they have a full valence shell
• For two atoms to bond, they must gain, lose, or share electrons
– Metals tend to lose electrons
– Non-metals tend to gain electrons
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ELECTRON CONFIGURATION
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BLOCK TABLE
• The periodic table shows the different blocks located on the periodic table
• It also shows the electron configuration order
– 1s, 2s, 2p, 3s, 3p, 4s, 3d, 4p, 5s, 4d, 5p, 6s, 4f, 5d, 6p, 7s, 5f, 6d
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E L E C T R O N P L A C E M E N TA N D T H E R U L E S T H AT F O L L OW
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AUFBAU PRINCIPLE• Electrons are placed in the lowest energy levels first
PAULI EXCLUSION PRINCIPLE• Only 2 electrons can be held in an orbital, different than an
electron energy shell, and they must have opposite spins
HUND’S RULE• Every orbital within a sublevel gets an electron before any gets paired
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ELECTRON CONFIGURATIONS
• The electron configuration of an atom is a shorthand method of
writing the location of electrons by sublevel
• The sublevel is written followed by a superscript with the number
of electrons in the sublevel
– If the 2p sublevel contains 2 electrons, it is written:
2p2
Number of electrons
Energy level
Energy sublevel
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ELECTRONS IN SUBLEVELS REVIEW
• s-orbital
– 1 orbital, 2 electrons
• p-orbital
– 3 orbitals, 6 electrons
• d-orbital
– 5 orbitals, 10 electrons
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WRITING ELECTRON CONFIGURATIONS• First, determine how many electrons are in the atom
– For example, Iron has 26 electrons
• Arrange the energy sublevels according to increasing energy
– 1s 2s 2p 3s 3p 4s 3d
• Fill each sublevel with electrons until you have used all the
electrons in the atom
– Fe: 1s2 2s2 2p6 3s2 3p6 4s2 3d6
• The sum of the superscripts equals the atomic number of iron (26)
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ELECTRON CONFIGURATION PRACTICE
• Write a ground state electron configuration of a neutral atom:
• K:
• Ne:
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A SHORTCUT!1s
2s 2p
3s 3p 3d
4s 4p 4d 4f
5s 5p 5d 5f 5g
6s 6p 6d 6f 6g 6h
7s 7p 7d 7f 7g 7h 7i
Do not exist in
normal ground
state atoms
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MORE PRACTICE!
• Write a ground state electron configuration of a neutral atom using
the shortcut:
• Cl:
• Rb:
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N O B L E G A S C O N F I G U R AT I O N
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NOBLE GAS CONFIGURATION
• The Noble Gases are:
– He, Ne, Ar, Kr, Xe, Rn
• Notice that each noble gas finishes a row, or energy level
• Noble gas configurations take advantage of this by condensing what
you have to write
– Example: He: 1s2
– Example: C: 1s2 2s2 2p2
• Noble Gas Configuration for C: [He] 2s2 2p2
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MORE EXAMPLES
• The ground state configuration for Arsenic (As) is:
– 1s2 2s2 2p6 3s2 3p6 4s2 3d10 4p3
• Notice, that the part in purple is the same as Argon’s configuration:
– 1s2 2s2 2p6 3s2 3p6
• The noble gas configuration will state with the gas in the row
before it
– [Ar] 4s2 3d10 4p3
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NOBLE GAS CORE ELECTRON CONFIGURATIONS
• Core Electrons: Electrons in [Noble Gas]
• Valence Electrons: Electrons outside of [Noble Gas]
• Recall, the electron configuration for Sodium (Na) is:
– Na: 1s2 2s2 2p6 3s1
• We can abbreviate the electron configuration by indicating the innermost
electrons with the symbol of the preceding noble gas
• The preceding noble gas with an atomic number less that sodium is neon, Ne.
We rewrite the electron configuration:
– Na: [Ne] 3s1
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NOBLE GAS CONFIGURATION PRACTICE
• Write the noble gas configuration for the following neutral atoms:
• Cu:
• Sr:
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O R B I TA L D I A G R A M S
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THE AUFBAU
PRINCIPLE
• Each electron
occupies the lowest
energy orbital
• All orbitals related to
an energy level are of
equal energy
• Example: The three 2p
orbitals are the same
energy level
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ORBITAL FILLING DIAGRAM
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PAULI EXCLUSION PRINCIPLE• A maximum of two electrons
may occupy a single orbital, but
only if the electrons have
opposite spins
– Spin: Electrons have an associated
‘spin’, either one way or the
other
– These spins are called ‘spin up’
and ‘spin down’
– In the example to the right:
• Box = orbital
• Arrow = electron
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HUND’S RULE
• Single electrons with the
same spin must occupy
each equal-energy orbital
before additional
electrons with opposite
spins can occupy the
same orbitals
Example: Nitrogen
1s2 2s2 2p3
1s2 2s2 2p3
1s2 2s2 2p3
NOT
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THE ORDER OF THINGS…
•Electrons fill up
the empty
orbitals before
sharing orbitals
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EXCEPTIONAL ELECTRON CONFIGURATIONS
• Some actual electron configurations differ from those
assigned using the aufbau principle because half-filled
sublevels are not as stable as filled sublevels, but they are
more stable than other configurations.
–Exceptions to the aufbau principle are due to subtle
electron-electron interactions in orbitals with very
similar energies
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ORBITAL DIAGRAM PRACTICE
• Draw the orbital diagram for the following neutral atoms:
• N:
• Al:
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MORE PRACTICE!
• Ti:
• Mg:
• As: