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Unit 6 : Quantum Mechanics, Molecular S tructure, and Orbital theory. By: Eddie Yokana a nd Jake Gold. Molecular Geometries. Note double and triple bonds are counted as ONE electron domain. Electrons will always situate themselves to minimize repulsion. Polarity. - PowerPoint PPT Presentation
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Unit 6: Quantum Mechanics, Molecular
Structure, and Orbital theory
By: Eddie Yokanaand
Jake Gold
Molecular Geometries
– Note double and triple bonds are counted as ONE electron domain.– Electrons will always situate themselves to minimize repulsion.
Electron Domains
Molecule Names
Orbitals Hybridized
Bond Angles
Two electron domains
Linear sp 180°
Three electron domains
Triangular Planar, Bent
sp2 120°
Four electron domains
Tetrahedral, Trigonal
pyramidal, Bent
sp3 109.5°
Five electron domains
Trigonal bipyramidal,
Seesaw, T-shaped, linear
sp3d 120°, 90°
Six electron domains
Octahedral, Square
pyramidal, Square planar
sp3d2 90°
Polarity• A bond is polar with electronegativity difference 0.5 or greater on the Pauling scale.
– All ionic bonds are polar.– Fluorine and oxygen are polar with all atoms (besides itself).– Generally if more than two spaces apart on periodical table then polar.
• A molecule is polar if polar bonds are asymmetrical.– Naturally symmetrical molecules: linear, trigonal planar, tetrahedral, trigonal
bipyramidal, octahedral, and square pyramidal. • In a polar bond, the atom that originally had a higher electronegativity has a partial negative
charge (δ-), and the atom with the lower electronegativity has a partial positive charge (δ+).
Electromagnetic Radiation• There are six types of electromagnetic radiation: gamma rays, x-rays, visible light, infrared,
and radio waves (in increasing wavelength).• Visible light has wavelengths between 400nm to 700nm.
– Remember ROYGBIV- Red, Orange, Yellow, Green, blue, indigo, and violet (Order of light in decreasing wavelength.
Equations• Light (c) goes at the speed of 2.9979 X 108 m/s through space, but slightly slower in air and
about 1.5 times slower in water.• C=fλ
– this equation is the relationship between frequency (f) and wavelength (λ). • E=hf
– This equation solves for the energy (J) contained one photon. h is Plank’s constant, which is 6.626 X 10-34 and f is frequency.
• KE= energy of a photon - energy threshold.– The kinetic energy of an electron will equal the amount of energy hit by a photon minus
the amount of energy it takes to emit the electron.• KE= ½ mv2
– this equation can be used to solve for the velocity (v) of an electron if you know the kinetic energy (KE) of the electron. m is a constant, which is the mass of an electron, which is 9.11 X 10-34 Kg.
• λ= h/(mv) – is the de Broglie wavelength.
Molecule Orbital Energy Levels
• Bonding nodes- help form bond• anti-bonding nodes- break apart bond• Energy increases going up the chart• Net Sigma bonds = (# of binding
electrons in sigma bonds - # of anti-binding electrons in sigma bonds) / 2
• Net pi bonds = (# of binding electrons in pi bonds - # of anti-binding electrons in pi bonds) / 2
• Bond order = (# of bonding electrons - # of anti-bonding electrons) / 2 – Or = net sigma bonds + net pi
bonds
O2
1. Sum up valence electrons
2. Make a basic single bond skeleton
3. Determine electrons remaining (subtract those used in bonds)
4. Determine electrons needed to complete octets
o Remain = needed : Finishedo Remain > needed : extra
lone pair(s) on central atomo Remain < needed : add
extra pi bond for every 2 electron deficit
SF4
Lewis Electron-Dot ExampleSTEPS6e-
7(4)e-
6+28=34e-
S
F
F
F
F
34e- - 8e- = 26e- remaining
6(4)e- = 24 e- needed
26e- > 24 e-
Lewis Dot Structure continued• If multiple isomers for molecule, then molecule with least formal charges will be the most
stable. • If two structures have the same amount of formal charges, then the more electronegative
atom will form the bond.• If both atoms are the same, then it could be a resonance molecule. This a way of describing
delocalized electrons within a molecule
S OO
S OO
S OO
Periodic Trends
Increasing Electronegativity
Incr
easi
ng E
lect
rone
gativ
ity
Note:• As Electronegativity INCREASES, atomic radius DECREASES• (Except Noble Gases)
*Remember effective nuclear charge increases going across and orbitals are added going down
Increasing Atomic Radius (size)
Incr
easi
ng A
tom
ic R
adiu
s (s
ize)
*Unequal electron affinity (i.e. >0.5) leads to polar bonds but the polar bonds must be asymmetrical for a molecule to be polar
Electron affinity is the ability of an atom to attract electrons from a bond.
*Since noble gases do not bond with other elements naturally, they are not included as we consider electronegativity.
Electron Orbitals“s” Block
“d” Block
“p” block
“f” Block
Electron Configurationhttp://www.shs.d211.org/science/faculty/hlg/e%20conf%20travis/electron_configuration.htm
3 Ways of writing electron configurations:Orbital box Notation
Spectroscopic Notation Noble gas core Notation
*Note: The “d” orbitals and the “f” orbitals have different principle quantum numbers
Electron Configuration
3 Ways of writing electron configurations:Orbital box Notation
Spectroscopic NotationShortcut Notation
http://www.shs.d211.org/science/faculty/hlg/e%20conf%20travis/electron_configuration.htm
Orbital box Notation:
Spectroscopic Notation:
Noble gas core Notation:
Element Total Electrons Shortcut Notation
Molybdenum - Mo 42 [Kr] 5s14d5
Tin - Sn 50 [Kr] 5s2 4d105p2
Tungsten - W 74 [Xe] 6s2 4f14 5d4
Element Total Electrons Written Notation
Oxygen - O 8 1s22s22p4
Phosphorus - P 15 1s22s22p6
Quantum Numbers
• Four quantum numbers: n, l, ml, ms. • N is the principle quantum number, and it identifies the electron shell or energy level (begins
at 1). • l describes the subshell (s,p,d,f using the numbers 0,1,2,3 respectively)• ml describes the specific orbital within the subshell (For d’s subshell it goes -2,-1,0,1,2)
• ms describes the spin. The spin is either +1/2 or -1/2. If electron is the first to go in a specific orbital, ms is positive, and the second electron is negative.
• “Electron Density and Molecular Geometry” http://employees.csbsju.edu/hjakubowski/classes/ch123/Bonding/vsepr.gif
• “Low Energy to High Energy=Order of Filling” http://
www.chemistryland.com/CHM130W/10-ModernAtom/Spectra/ModernAtom.html
WORKS CITED
http://www.concord.org/~ddamelin/chemsite/d_bonding/configs.html
http://www.shs.d211.org/science/faculty/hlg/e%20conf%20travis/electron_configuration.htm