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Atomic Structure

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Atomic Structure From Indivisible to Quantum Mechanical Model of the Atom V.Montgomery & R.Smith * s, p, and d describe the shape of the orbital. – PowerPoint PPT presentation

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Title: Atomic Structure


1
Atomic Structure
  • From Indivisible to Quantum Mechanical Model of
    the Atom

2
Quantum mechanical model(Modern Atomic Theory)
  • SchrÖdinger
  • Heisenberg
  • Pauli
  • Hund

3
Heisenbergs Uncertainty Principle
  • Impossible to determine both the position and the
    velocity of an e- in an atom simultaneously with
    great certainty.

4
SchrÖdinger
  • e- not in neat orbits, but exist in regions
    called orbitals

5
Definitions
  • Orbital ? region in space where the probability
    of finding an electron is the highest

6
Quantum Numbers
  • Definition specify the properties of atomic
    orbitals and the properties of electrons in
    orbitals
  • There are four quantum numbers

7
Quantum Numbers (1)
  • Principal Quantum Number, n

8
Quantum Numbers
  • Principal Quantum Number, n
  • Values of n 1,2,3, ?
  • Positive integers only!
  • Indicates the main energy level occupied by the
    electron

9
Quantum Numbers
  • Principal Quantum Number, n
  • Values of n 1,2,3, ?
  • Describes the energy level, orbital size

10
Quantum Numbers
  • Principal Quantum Number, n
  • Values of n 1,2,3, ?
  • Describes the energy level, orbital size
  • As n increases, orbital size increases.

11
Principle Quantum Number
  • More than one e- can have the same n value
  • These e- are said to be in the same e- shell
  • The total number of orbitals that exist in a
    given shell n2

12
Orbital Shapes
  • For a specific main energy level, the number of
    sublevels possible is equal to n.
  • Ex. n2, can have two sublevels.
  • A sublevel is assigned a letter
  • s , p , d, f , g, h

13
Energy Level and Orbitals
  • n1, only s orbitals
  • n2, s and p orbitals
  • n3, s, p, and d orbitals
  • n4, s,p,d and f orbitals

14
Atomic Orbitals
  • Atomic Orbitals are designated by the principal
    quantum number followed by letter of their
    subshell
  • Ex. 1s s orbital in 1st main energy level
  • Ex. 4d d sublevel in 4th main energy level

15
The area where an electron can be found, the
orbital, is defined mathematically, but we can
see it as a specific shape in 3-dimensional space
16
Orbital Shapes
  • s is spherical.
  • One possible orientation.

17
z
y
x
18
z
y
The 3 axes represent 3-dimensional space
x
19
z
y
For this presentation, the nucleus of the atom is
at the center of the three axes.
x
20
The 1s orbital is a sphere, centered around the
nucleus
21
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22
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23
The 2s orbital is also a sphere.
24
The 2s electrons have a higher energy than the
1s electrons. Therefore, the 2s electrons are
generally more distant from the nucleus, making
the 2s orbital larger than the 1s orbital.
25
1s orbital
26
2s orbital
27
Orbital Shapes
  • p orbital.
  • dumbbell shape

28
There are three p orbitals
3 possible orientations
29
DEGENERATE ORBITALS
The three 2p orbitals are oriented perpendicular t
o each other
All three orbitals are identical of each other
by energy, size and shape.The only difference is
their orientation in space.
30
z
This is one 2p orbital (2py)
y
x
31
z
another 2p orbital (2px)
y
x
32
z
the third 2p orbital (2pz)
y
x
33
z
The three 2p orbitals, 2px, 2py, 2pz
y
  • 3p, 4p, 5p, etc have the same shape and number,
    just larger

x
34
Orbital Shapes
  • d orbital.
  • double dumbbell or four-leaf clover
  • It has 5 degenerate orbitals
  • 5 possible orientations
  • The 4d orbitals etcare the same shape, only
    larger

35
Orbital Shapes
  • f orbital
  • It has 7 degenerate orbitals
  • 7 possible orientations

36
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37
Energy Level and Orbitals
  • n1, only s sublevel
  • n2, s and p sublevels
  • n3, s, p, and d sublevels
  • n4, s,p,d and f sublevels

38
In the same energy level, energies of orbitals
  • s lt p lt d lt f
  • (because of the amount of repulsion between
    electrons)

39
Quantum Numbers (4)
  • Electron Spin Quantum Number,
  • ms 1/2, ?1/2)

40
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41
  • Electron Spin QN
  • 1. Relates to the spin states of
  • the electrons.
  • 2. Electrons are 1 charged and
  • are spinning
  • 3. The two possible spin directions are called ½
    and ½

42
Pauli Exclusion Principle
No 2 e- in an atom can have the same set of four
quantum numbers (n, l, ml, ms ). Therefore, no
atomic orbital can contain more than 2 e-. and
they must have opposite spin.
Wolfgang Pauli
?
?
43
Sublevels
  • There are 4 sublevels(different shaped orbitals)
  • s (has 1 orbital)
  • p (has 3 orbitals)
  • d (has 5 orbitals)
  • f (has 7 orbitals)
  • Each orbital can hold 2 electrons

44
Energy Level (n) Sublevels in Level Orbitals in Sublevel Total of Orbitals in Level
1 s 1 1
2 s 1 4
2 p 3 4
3 s 1 9
3 p 3 9
3 d 5 9
4 s 1 16
4 p 3 16
4 d 5 16
4 f 7 16
45
Electron Configurations
  • Electron Configurations arrangement of e- in an
    atom
  • There is a distinct electron configuration for
    each atom
  • There are 3 rules for writing electron
    configurations

46
Aufbau Principle
  • Aufbau Principle an e- occupies the lowest
    energy orbital that can receive it.

47
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48
Aufbau order

ENERGY
49
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50
Writing Electron Configurations
of e-
Describes e- location.
  • 3p4

Principal Energy Level
Sublevel
51
Electron Configuration
  • The total of the superscripts must equal the
    atomic number (number of electrons) of that atom.

52
Orbital Diagrams
  • These diagrams are based on the electron
    configuration.
  • In orbital diagrams
  • Each orbital (the space in an atom that will hold
    a pair of electrons) is shown.
  • The opposite spins of the electron pair is
    indicated.

53
Orbital Diagram Rules
  • Represent each electron by an arrow
  • The direction of the arrow represents the
    electron spin
  • Draw an up arrow to show the first electron in
    each orbital.
  • Hunds Rule(the principle of multiplicity)
    Distribute the electrons among the orbitals
    within sublevels so as to give the most unshared
    pairs.
  • Put one electron in each orbital of a sublevel
    before the second electron appears.

54
Hunds Rule
  • One electron enters each orbital of equal energy
    (degenerate orbitals)until all the orbitals
    contain one electron with the same spin
    direction
  • then they pair up.

?
?
?
?
?
?
?
?
55
configuration 1s 2s 2px 2py 2pz
H 1s1 ?
He 1s2 ? ?
Li 1s22s1 ? ? ?
Be 1s22s2 ? ? ? ?
B 1s22s22p1 ? ? ? ? ?
C 1s22s22p2 ? ? ? ? ? ?
N 1s22s22p3 ? ? ? ? ? ? ?
O 1s22s22p4 ? ? ? ? ? ? ? ?
F 1s22s22p5 ? ? ? ? ? ? ? ? ?
Ne 1s22s22p6 ? ? ? ? ? ? ? ? ? ?
56
Orbital Diagram Examples
  • H ?_
  • 1s
  • Li ?? ?_
  • 1s 2s
  • B ?? ?? ? __ __
  • 1s 2s 2p
  • N ?? ?? ? ? ?_
  • 1s 2s 2p

57
Orbital filling table
58
  • We can use the previous Noble Gas as an
    abbreviation to indicate filled inner orbitals
  • a. Na 1s22s22p63s1 or Ne3s1
  • b. Ca Ar4s2
  • c. Cl Ne3s23p5
  • d. Rb Kr5s1

59
Dot Diagram of Valence Electrons
  • When two atom collide, and a reaction takes
    place, only the outer electrons interact.
  • These outer electrons are referred to as the
    valence electrons. Valence electrons are
    available to be lost, gained, or shared in the
    formation of chemical compounds

60
Lewis Dot(electron dot) diagrams
  • A way of keeping track of valence electrons.
  • Write the symbol.
  • Put one dot for each valence electron
  • Start at 3 oclock move in a counterclockwise
    direction Video

X
61
  • Distribute one valence electron at a time
  • Do not pair (double up) any electrons until there
    is one electron in each of the four directions
  • Pair up electrons once there is one in each of
    the four directions

62
The Lewis Dot diagram for Nitrogen
  • Nitrogen has 5 valence electrons.
  • First we write the symbol.

N
  • Then add 1 electron at a time to each side.
  • Until they are forced to pair up.
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