Orbitals and Covalent Bond - PowerPoint PPT Presentation

1 / 30
About This Presentation
Title:

Orbitals and Covalent Bond

Description:

When three things come off atom. trigonal planar. 120 . on s one p bond. 14. What about two. When two things come off. One s and one p hybridize. linear. 15. sp ... – PowerPoint PPT presentation

Number of Views:79
Avg rating:3.0/5.0
Slides: 31
Provided by: thoma464
Category:

less

Transcript and Presenter's Notes

Title: Orbitals and Covalent Bond


1
Chapter 9
  • Orbitals and Covalent Bond

2
Atomic Orbitals Dont Work
  • to explain molecular geometry.
  • In methane, CH4 , the shape s tetrahedral.
  • The valence electrons of carbon should be two in
    s, and two in p.
  • the p orbitals would have to be at right angles.
  • The atomic orbitals change when making a molecule

3
Hybridization
  • We blend the s and p orbitals of the valence
    electrons and end up with the tetrahedral
    geometry.
  • We combine one s orbital and 3 p orbitals.
  • sp3 hybridization has tetrahedral geometry.

4
In terms of energy
2p
Hybridization
Energy
2s
5
How we get to hybridization
  • We know the geometry from experiment.
  • We know the orbitals of the atom
  • hybridizing atomic orbitals can explain the
    geometry.
  • So if the geometry requires a tetrahedral shape,
    it is sp3 hybridized
  • This includes bent and trigonal pyramidal
    molecules because one of the sp3 lobes holds the
    lone pair.

6
sp2 hybridization
  • C2H4
  • Double bond acts as one pair.
  • trigonal planar
  • Have to end up with three blended orbitals.
  • Use one s and two p orbitals to make sp2
    orbitals.
  • Leaves one p orbital perpendicular.

7
(No Transcript)
8
(No Transcript)
9
In terms of energy
2p
Energy
2s
10
Where is the P orbital?
  • Perpendicular
  • The overlap of orbitals makes a sigma bond (s
    bond)

11
Two types of Bonds
  • Sigma bonds from overlap of orbitals.
  • Between the atoms.
  • Pi bond (p bond) above and below atoms
  • Between adjacent p orbitals.
  • The two bonds of a double bond.

12
H
H
C
C
H
H
13
sp2 hybridization
  • When three things come off atom.
  • trigonal planar
  • 120º
  • on s one p bond

14
What about two
  • When two things come off.
  • One s and one p hybridize.
  • linear

15
sp hybridization
  • End up with two lobes 180º apart.
  • p orbitals are at right angles
  • Makes room for two p bonds and two sigma bonds.
  • A triple bond or two double bonds.

16
In terms of energy
2p
Energy
2s
17
CO2
  • C can make two s and two p
  • O can make one s and one p

C
O
O
18
Breaking the octet
  • PCl5
  • The model predicts that we must use the d
    orbitals.
  • dsp3 hybridization
  • There is some controversy about how involved the
    d orbitals are.

19
dsp3
  • Trigonal bipyrimidal
  • can only s bond.
  • cant p bond.
  • basic shape for five things.

20
PCl5
Cant tell the hybridization of Cl Assume sp3 to
minimize repulsion of electron pairs.
21
d2sp3
  • gets us to six things around
  • octahedral

22
Molecular Orbital Model
  • Localized Model we have learned explains much
    about bonding.
  • It doesnt deal well with the ideal of resonance,
    unpaired electrons, and bond energy.
  • The MO model is a parallel of the atomic orbital,
    using quantum mechanics.
  • Each MO can hold two electrons with opposite
    spins
  • Square of wave function tells probability

23
What do you get?
  • Solve the equations for H2
  • HA HB
  • get two orbitals
  • MO1 1sA - 1sB
  • MO2 1sA 1sB

24
The Molecular Orbital Model
  • The molecular orbitals are centered on a line
    through the nuclei
  • MO1 the greatest probability is between the
    nuclei
  • MO2 it is on either side of the nuclei
  • this shape is called a sigma molecular orbital

25
The Molecular Orbital Model
  • In the molecule only the molecular orbitals
    exist, the atomic orbitals are gone
  • MO1 is lower in energy than the 1s orbitals they
    came from.
  • This favors molecule formation
  • Called an bonding orbital
  • MO2 is higher in energy
  • This goes against bonding
  • antibonding orbital

26
The Molecular Orbital Model
MO2
Energy
1s
1s
MO1
27
The Molecular Orbital Model
  • We use labels to indicate shapes, and whether the
    MOs are bonding or antibonding.
  • MO1 s1s
  • MO2 s1s ( indicates antibonding)
  • Can write them the same way as atomic orbitals
  • H2 s1s2

28
The Molecular Orbital Model
  • Each MO can hold two electrons, but they must
    have opposite spins
  • Orbitals are conserved. The number of molecular
    orbitals must equal the number atomic orbitals
    that are used to make them.

29
H2-
s1s
Energy
1s
1s
s1s
30
Bond Order
  • The difference between the number of bonding
    electrons and the number of antibonding electrons
    divided by two
Write a Comment
User Comments (0)
About PowerShow.com