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QUANTUM MECHANICS

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QUANTUM MECHANICS Predicting the most probable position of an electron. – PowerPoint PPT presentation

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Title: QUANTUM MECHANICS


1
QUANTUM MECHANICS

Predicting the most probable position of an
electron.
2
BOHRs MODEL
  • Cannot successfully predict line spectra for any
    other element besides hydrogen.
  • Electrons must not be moving in circular orbits
    at set distances from the nucleus.

3
BACK TO THE 3 ?s ABOUT e-
  • How are the electrons moving?
  • As waves
  • NOT in orbits

4
Where are they located?
  • In ORBITALS
  • Areas of high probability based on the wave
    motion and energy of an electron
  • Every orbital has an address given by a set of
    4 QUANTUM NUMBERS.

5
How much energy do they have?
  • Determined by the n value (like Bohr).
  • Higher n higher energy level more energy
    further from the nucleus.

6
SCIENTISTS CONTRIBUTING to QUANTUM THEORY
  • DeBROGLIE
  • 1924
  • French
  • Proposed the particle wave duality to describe
    electron motion.

7
HEISENBERG
  • 1927
  • Proposed the Heisenberg uncertainty principle.
  • The more you know about the e- position, the less
    you know about its velocity.

8
SCHRODINGER
  • 1926
  • Austrian
  • Proposed a complex mathematical relationship to
    predict where an e- is located.

9
SCHRODINGER EQUATION
  • A calculus problem.
  • We will deal only with the answers.
  • 4 answers to the Schrodinger equation are known
    as QUANTUM NUMBERS.

10
4 QUANTUM NUMBERS
  • n
  • l
  • ml
  • ms

11
1. Prinicpal Quantum Number
  • Symbol n
  • Tells what energy level the electron is in.
  • Possible values
  • n 1 to infinity

12
2. Orbital Quantum Number
  • Symbol l (small cursive l)
  • Tells about the shape of the orbital where the
    electron is housed.
  • Possible values 0 to (n-1)

13
Orbital Quantum Number and Shapes
  • L 0 s orbital spherical
  • L 1 p orbital peanut shaped
  • L 2 d orbital daisy
    (cloverleaf)
  • L 3 f orbital flower

14
s orbital
15
p orbitals
16
d orbitals
17
3. Magnetic Quantum Number
  • Symbol ml
  • Tells about the orientation of the orbital around
    the nucleus (around the axis).
  • Possible values
  • - l to l including 0

18
Values of ml
  • s orbital 1 orientation, 1 ml value (0)
  • p orbital 3 orientations, 3 ml values (-1, 0,
    1)
  • d orbital 5 orientations, 5 ml values
    (-2,-1,0,1,2)

19
4. Spin quantum number
  • Symbol ms
  • Tells the direction of electron spin within an
    orbital.
  • Possible values 1/2 or 1/2
  • 1/2 clockwise spin
  • - 1/2 counter clockwise spin

20
RULES for QUANTUM NUMBERS and ELECTRONS
  • Pauli Exclusion Principle
  • Every electron in an atom must have a unique set
    of quantum numbers.
  • Electrons in the same orbital must have opposite
    spins.

21
ENERGY LEVEL DIAGRAM
  • A way to keep track of electrons.
  • Includes lines or boxes that represent orbitals.
  • Also shows orbital types and energy levels.
  • Once filled, it is possible to find the quantum
    number set for any electron in the atom.

22
RULES FOR FILLING AN ENERGY LEVEL DIAGRAM
  • AUFBAU PRINCIPLE
  • Meaning Building up
  • Electrons must be filled in from the lowest
    energy level to the highest.
  • Do not move to the next sublevel until the one
    below has been completely filled.

23
HUNDS RULE
  • Electrons will fill an unoccupied orbital within
    a sublevel before pairing up with another
    electron in an orbital.
  • This minimizes electron repulsion and leads to
    stability.

24
OCTET RULE
  • Atoms become stable when their outermost energy
    level contains 8 electrons.
  • Noble gases have a full OCTET.
  • The outermost electrons are called VALENCE
    ELECTRONS.
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