atomic models electronic config
TRANSCRIPT
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Once Upon a Time…Leucippus’ Story
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Different Theories of the Atom
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Greek Philosophers
• Aristotle: relied on logic-continuous matter.
• Leucippus & Democritus: they introduce the word “atomos” individual particles of matter which could not be subdivided.
Substance were mixtures of different types of atoms.
• Lucretius: Roman poet who wrote about atoms.
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Atoms
• The Greeks based their models on logic and speculation, not experiment.
• Several observations led up to the formulation of atomic theory by Dalton.
Dalton’s model of the atom was based on observation and experiment, not
speculation.
• Based on Laws of Nature as discovered by several people.
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Dalton’s atomic theory
• All matter is composed of extremely small particles called atoms.
• All atoms of a given element are alike, but atoms of one element differ from
the atoms of any other element.
• Compounds are formed when atoms of different elements combine in fixed
proportion.
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Dalton’s Atomic Model:
Solid bowling
ball
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J. J Thomson discovered the electron using the cathode ray tube.
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Thomson proposed a model of a
spherical atom composed of
diffuse, positively
charged matter, in which
electrons were embedded like
“plum pudding”
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Goldstein discovered positive particles, which we now know are protons.
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Rutherford proposed the nuclear model of the atom.
Atoms consisted of a central nucleus which had a positive charge and
which had a very small volume, but it also contained most of the mass of the atom. Surrounding the nucleus were electrons, which had very little
mass, but which occupied most of the volume of the atom.
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Rutherford set out to test Thomson’s hypothesis.
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Microscopic View of the
Alpha Particle
Scattering Experiment
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Rutherford's Atomic Model
Discover the
nucleus (proton+ neutron)
and electron flying.
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The Bohr Atom
• Bohr was able to accurately predict the energy levels of the one-electron
atom, hydrogen.• He deduced that multi-electron atoms
would have electrons placed in the energy levels described by his theory.
• A certain maximum number of electrons could be in each level.
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Bohr’s Atomic model (Energy levels)
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Niels Borh Atomic Model“Planetary System”
Electrons flying in energy’s
levels
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The charge cloud representations illustrate the regions of high electron probability around a nucleus as calculated using Schrödinger's equations. These complex mathematical equations combine the wave properties and particle nature of an electron with quantum restrictions.
Schrödinger Electron Cloud Model
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SommerfeldTalk about Elliptical
orbits and sublevels of
energy
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Atomic Models
4 atomic models build the:
“Quantum Mechanical Model of the Atom”
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QUANTUM NUMBER
SYMBOL REPRESENTS VALUES PROVIDES INFORMATION ABOUT
First or Principal Quantum Number n Energy Level It can take whole numbers
from 1 to n (1 to 7 most common)
The electron cloud size
Second Quantum Number l Energy Sublevel It can range in values from
0 to n-1 (i.e.: when n=3, values of l are 0, 1, and 2)
The shape of the electron cloud
Third Quantum Number m Orbital (regions
in which 0, 1 or up to 2 electrons are likely to be found)
It can have integral values form -l to +l
m=n2, i.e: when n=2, m= 4, that means that in 2nd level there is one 2s orbital and three 2p orbitals for a total
of four.s= 1 orbital
p= 3 orbitalsd= 5 orbitalsf= 7 orbitals
The orientation in the space of the orbital
Fourth Quantum Number s Spin of the
electronIt can be either +1/2 or -1/2
The rotation direction of the electron, either clockwise or counter-clockwise.
p. 44, 45
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Niels Borh Atomic Model“Planetary System”
Electrons flying in energy’s
levels“n”
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“s” orbitals,“p” orbitals,“d” orbitals,“f” orbitals.
Sommerfeld talk about Elliptical orbits and sublevels of energy “l” The shape.
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s, p, d, and f Orbitals
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Charge Cloud Representations of “s” Orbitals
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Shapes of “p” Orbitals
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Schrödinger Magnetic Zones in the Atom “m”
To know the
orientation of the
e-
3D
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px, py, pz orbitals
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s, p, d, and f Orbitals
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Dirac-Jordan: Electron’s Spin “s”
counterclockwise clockwise
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Electrons in Energy Levels
The maximum number of electrons in any energy level is 2n2.
Level 2n2 max # e-
1 2(1)2 2
2 2(2)2 8
3 2(3)2 18
4 2(4)2 32
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Z: Atomic number = # of protonsHe2
A: Atomic mass = # of protons + # of neutrons
He : 4 uma
Isotopes =Same # of protons, lack of neutrons
He: 2p+, 1no
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Z: Atomic Number
A: Atomic Mass
Z: Atomic Number
A: Atomic Mass
Z: Atomic Number
A: Atomic Mass
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++o
o
e-
e-
Helium atom
2 p+, Z = 22 n0 + 2 p+, A = 4
2 e-
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ANION
++o
o
e-
e-
2 p+ = +23 e- = -3
net charge = -1
e- Helium atom
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CATION
e-
++o
o
e-
2 p+ = +21 e- = -1
net charge = +1
Helium atom
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ISOTOPES
++o
e-
e-
2 p+, Z = 21 n0 + 2 p+, A = 3
2 e-
Helium atom
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Elemento Símbolo Número deProtones
(p+)
Número de Neutrones
(no)
Número de Electrones
(e-)
Número Atómico
(Z)
Número de Masa
(A)
Oxígeno O 8 8 8 8 16
Silicio Si 14 14 14 14 28
Aluminio Al 13 14 13 13 27Hierro Fe 26 30 26 26 56
Calcio Ca 20 20
Sodio Na 11 23
Cobre Cu 29 35 29
Magnesio Mg 12 24
Oro Au 79 197
Plata Ag 61 47
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Elemento Símbolo Número deProtones
(p+)
Número de Neutrones
(no)
Número de Electrones
(e-)
Número Atómico
(Z)
Número de Masa
(A)
Oxígeno O 8 8 8 8 16
Silicio Si 14 14 14 14 28
Aluminio Al 13 14 13 13 27Hierro Fe 26 30 26 26 56
Calcio Ca 20 20 20 20 40Sodio Na 11 12 11 11 23
Cobre Cu 29 35 29 29 64Magnesio Mg 12 12 12 12 24
Oro Au 79 118 79 79 197
Plata Ag 44 61 47 108 169
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Z: Atomic number = # of protonsHe2
A: Atomic mass (mass number) = # of protons + # of neutrons
He : 4 uma
Isotopes =Same # of protons, lack of neutrons
He: 2p+, 1no
ION: charged atom(+) Cation = lack of electrons
(-) Anion = excess of electrons
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Z: Atomic Number
A: Atomic Mass
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Nombre y Símbolo del
Elemento
Número deProtones
(p+)
Número de Neutrones
(no)
Número de Electrones
(e-)
Número Atómico
(Z)
Número de Masa
(A)
Carga Átomo o Ión: Anión o Catión
Zn 30 35 30 30 65 0 Atom
Cl 17 18 18 17 35 -1 Anion
V 23 20 21 23 43 +2 Cation35 34 -1
11 9 -3
12 10 +2
11 23 0
19 20 +1
56 137 0
15 16 -3
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Nombre y Símbolo del
Elemento
Número deProtones
(p+)
Número de Neutrones
(no)
Número de Electrones
(e-)
Número Atómico
(Z)
Número de Masa
(A)
Carga Átomo o Ión: Anión o Catión
Zn 30 35 30 30 65 0 Atom
Cl 17 18 18 17 35 -1 Anion
V 23 20 21 23 43 +2 Cation
As 33 35 34 33 68 -1 Anion
F 9 11 12 9 20 -3 Anion
Mg 12 12 10 12 24 +2 Cation11 23 0
19 20 +1
56 137 0
15 16 -3
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Nombre y Símbolo del
Elemento
Número deProtones
(p+)
Número de Neutrones
(no)
Número de Electrones
(e-)
Número Atómico
(Z)
Número de Masa
(A)
Carga Átomo o Ión: Anión o Catión
Zn 30 35 30 30 65 0 Atom
Cl 17 18 18 17 35 -1 Anion
V 23 20 21 23 43 +2 Cation
As 33 35 34 33 68 -1 Anion
F 9 11 12 9 20 -3 Anion
Mg 12 12 10 12 24 +2 Cation
Na 11 12 11 11 23 0 Atom
K 19 20 18 19 39 +1 Cation
Ba 56 81 56 56 137 0 Atom
P 15 16 18 15 31 -3 Anion
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Electronic Configuration
• A summary of an orbital diagram.
• The way in which electrons are arranged around the nucleus of the atoms.
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There are energy levels
• The energy levels were assigned a
principal quantum number, n, which
could equal 1, 2, 3…
• This quantum number, n designates the
energy and size of the region in space
the electrons might be found.
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There are energy sub-levels
• Within an energy level there are
sublevels or subshells, designated s,
p, d, and f.
• This quantum number, l tell the shape of
the region in space the electrons might
be found.
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Orbitals
• Each subshell contains one or more orbitals.
• Each orbital can contain one or two electrons.
• Each electron in an orbital must have opposite spins.
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Heisenberg Uncertainty Principle
It is impossible to know simultaneously,
both the velocity and the position of a
particle with certainty.
Pauli Exclusion Principle
Two electrons in an atom can not have the
same 4 quantum numbers.
He = 1s2
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Hund’s Rule
The most stable arrangement of electrons
in sublevels is the one with the greatest
number of parallel spins.
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Short Hand Method
• Write the electron configuration by filling in the number of electrons of each type
in the orbitals: XsaYsbZpc…
Where X, Y, Z are Principle Quantum numbers.
s, p, d, f are the shape of the orbital.
a, b, c are number of electrons.
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Examples of short hand electronic configurations
• 2He: 1s2
• 3Li : 1s2 2s1
• 6C: 1s2 2s22p2
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1s2s 2p3s 3p 3d4s 4p 4d 4f5s 5p 5d 5f6s 6p 6d 6f7s 7p 7d
Diagram of Aufbau
s=2p=6
d=10f=14
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1s 2s 3s 4s 5s 6s 7s2p 3p 4p 5p 6p 7p
3d 4d 5d 6d 7d 4f 5f 6f
Diagram of Aufbau
s=2p=6
d=10f=14
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Element Z Electronic Configuration Orbital diagram
s p
Lithium 3
Carbon 6
Oxygen 8
Neon 10
Sodium 11
Aluminium 13
Phosphorus 15
Chlorine 17
Potassium 19
Calcium 20
1s22s1
1s22s22p2
1s22s22p4
1s22s22p6
1s22s22p63s1
1s22s22p63s23p1
1s22s22p63s23p3
1s22s22p63s23p5
1s22s22p63s23p64s1
1s22s22p63s23p64s2
2
2 1
2 1
2 1
3 1
3 2
3 2
3 2
4 2
4 2
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Atom or Ion Z or ion
Electronic Configuration
Orbital Diagrams
s p
Nitrogen atom 7
Nitrogen ion -3
Oxygen atom 8
Oxygen ion -2
Fluorine atom 9
Fluorine ion -1
Sodium atom 11
Sodium ion +1
Magnesium atom
12
Magnesium ion +2
Sulphur atom 16
Sulphur ion -2
Chlorine atom 17
Chlorine ion -1
Calcium atom 20
Calcium ion +2
Iodine atom 53
Iodine ion -1
Barium atom 56
Barium ion +2
1s22s22p3
1s22s22p6
1s22s22p4
1s22s22p6
1s22s22p5
1s22s22p6
1s22s22p63s1
1s22s22p6
1s22s22p63s2
1s22s22p6
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Atom or Ion Atomic
Number or Charge of
the ion
Electronic Configuration Orbital
Diagram
s
s p
Nitrogen atom 7
Nitrogen ion -3
Oxygen atom 8
Oxygen ion -2
Fluorine atom 9
Fluorine ion -1
Sodium atom 11
Sodium ion +1
Magnesium atom
12
Magnesium ion +2
Sulphur atom 16
Sulphur ion -2
Chlorine atom 17
Chlorine ion -1
Calcium atom 20
Calcium ion +2
Iodine atom 53
Iodine ion -1
Barium atom 56
Barium ion +2
1s22s22p63s23p4
1s22s22p63s23p6
1s22s22p63s23p5
1s22s22p63s23p6
1s22s22p63s23p64s2
1s22s22p63s23p6
1s22s22p63s23p64s23d104p65s24d105p5
1s22s22p63s23p64s23d104p65s24d105p6
1s22s22p63s23p64s23d104p65s24d105p66s2
1s22s22p63s23p64s23d104p65s24d105p6
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s, p, d, and f Orbitals
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Charge Cloud Representations of
“s” Orbitals
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Shapes of “p” Orbitals
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px, py, and pz Orbitals
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Valence Electrons
The electrons in the highest occupied energy level of an elements atoms.
The energy level that holds the valence electrons are called Valence shells.
Octet RuleThe most stable arrangement of the atom is
with 8 electrons in the last level like a noble
gas.
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Symbol of
element
No.of p+
and e-(Z)
Valence shell
No. of valence
e-
Lewis diagram
e- that can be lost or gained
Charge (+ or -)Cation
o Anion
Electronic configuration of anion or cation
3 Li
11 Na
20 Ca
13 Al
19 K
6 C
15 P
8 O
10 Ne
17 Cl
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Symbol of
element
No.of p+
and e-(Z)
Valence shell
No. of valence
e-
Lewis diagram
e- that can be lost or gained
Charge (+ or -)Cation
o Anion
Electronic configuration of anion or cation
3 Li 3 2 1 1 +1 1s2 2s1
11 Na 11 3 1 1 +1 1s2 2s2 2p6 3s1
20 Ca 20 4 2 2 +2 1s2 2s2 2p6 3s2 3p6 4s2
13 Al
19 K
6 C
15 P
8 O
10 Ne
17 Cl
Li
Na
Ca
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Symbol of
element
No.of p+
and e-(Z)
Valence shell
No. of valence
e-
Lewis diagram
e- that can be lost or gained
Charge (+ or -)Cation
o Anion
Electronic configuration of anion or cation
3 Li 3 2 1 1 +1 1s2 2s1
11 Na 11 3 1 1 +1 1s2 2s2 2p6 3s1
20 Ca 20 4 2 2 +2 1s2 2s2 2p6 3s2 3p6 4s2
13 Al 13 3 3 3 +3 1s2 2s2 2p6 3s2 3p1
19 K 19 4 1 1 +1 1s2 2s2 2p6 3s2 3p6 4s1
6 C 6 2 4 4 ±4 1s2 2s2 2p2
15 P
8 O
10 Ne
17 Cl
Li
Na
Ca
AlK
C
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Symbol of
element
No.of p+
and e-(Z)
Valence shell
No. of valence
e-
Lewis diagram
e- that can be lost or gained
Charge (+ or -)Cation
o Anion
Electronic configuration of anion or cation
3 Li 3 2 1 1 +1 1s2 2s1
11 Na 11 3 1 1 +1 1s2 2s2 2p6 3s1
20 Ca 20 4 2 2 +2 1s2 2s2 2p6 3s2 3p6 4s2
13 Al 13 3 3 3 +3 1s2 2s2 2p6 3s2 3p1
19 K 19 4 1 1 +1 1s2 2s2 2p6 3s2 3p6 4s1
6 C 6 2 4 4 ±4 1s2 2s2 2p2
15 P 15 3 5 3 -3 1s2 2s2 2p6 3s2 3p3
8 O 8 2 6 2 -2 1s2 2s2 2p4
10 Ne 10 2 8 0 0 1s2 2s2 2p6
17 Cl 17 3 7 1 -1 1s2 2s2 2p6 3s2 3p5
Ne
Li
Na
Ca
AlK
C
P
O
Cl
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Ne