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18.1 Electron Waves and Chemical Bonds

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1 18.1 Electron Waves and Chemical Bonds

2 Models for Chemical Bonding
The Lewis model of chemical bonding predates the idea that electrons have wave properties. There are two other widely used theories of bonding that are based on the wave nature of an electron. Valence Bond Theory Molecular Orbital Theory 2

3 Consider formation of H2 from two hydrogen atoms.
+ e– + e– Examine how the electrostatic forces change as two hydrogen atoms are brought together. These electrostatic forces are: attractions between the electrons and the nuclei repulsions between the two nuclei repulsions between the two electrons 6

4 Figure 1.14 H• + H• H weak net attraction at long distances
Potential energy H• + H• H Internuclear distance 6

5 Figure 1.14 attractive forces increase faster than repulsive forces as atoms approach each other Potential energy H• + H• H H H H Internuclear distance 6

6 Figure 1.14 maximum net attraction (minimum potential energy) at 74 pm internuclear distance Potential energy 74 pm H• + H• H H H H -436 kJ/mol H2 Internuclear distance 6

7 Figure 1.14 1s H H 1s 2 H atoms: each electron "feels" attractive force of one proton H H H2 molecule: each electron "feels" attractive force of both protons 3

8 Figure 1.14 repulsive forces increase faster than attractive forces at distances closer than 74 pm Potential energy 74 pm H• + H• H H H H -436 kJ/mol H2 Internuclear distance 6

9 Models for Chemical Bonding
Valence Bond Theory constructive interference between two electron waves is basis of shared-electron bond Molecular Orbital Theory derive wave functions of molecules by combining wave functions of atoms 2

10 18.1 Bonding in H2: The Valence Bond Model

11 Valence Bond Model Electron pair can be shared when half-filled orbital of one atom overlaps in phase with half-filled orbital of another.

12 in-phase overlap of two half-filled hydrogen 1s orbitals
Valence bond model 1s H H 1s in-phase overlap of two half-filled hydrogen 1s orbitals H H s bond of H2 3

13 Valence Bond Model s Bond: orbitals overlap along internuclear axis Cross section of orbital perpendicular to internuclear axis is a circle. H H

14 Valence Bond Model of H2 Figure 1.17(a) The 1s orbitals of two separated hydrogen atoms are far apart. Essentially no interaction. Each electron is associated with a single proton. 3

15 Valence Bond Model of H2 Figure 1.17(b) As the hydrogen atoms approach each other, their 1s orbitals begin to overlap and each electron begins to feel the attractive force of both protons. 3

16 Valence Bond Model of H2 Figure 1.17(c) The hydrogen atoms are close enough so that appreciable overlap of the the two 1s orbitals occurs. The concentration of electron density in the region between the two protons is more readily apparent. 3

17 Valence Bond Model of H2 Figure 1.17(d) A molecule of H2. The two hydrogen 1s orbitals have been replaced by a new orbital that encompasses both hydrogens and contains both electrons. 3

18 18.1 Bonding in H2: The Molecular Orbital Model

19 Main Ideas Electrons in a molecule occupy molecular orbitals (MOs) just as electrons in an atom occupy atomic orbitals (AOs). Two electrons per MO, just as two electrons per AO. Express MOs as combinations of AOs.

20 MO Picture of bonding in H2
Linear combination of atomic orbitals method expresses wave functions of molecular orbitals as sums and differences of wave functions of atomic orbitals. Two AOs yield two MOs Bonding combination Antibonding combination yMO = y(H)1s + y(H')1s y'MO = y(H)1s - y(H')1s

21 Fig. 1.19 Energy-level diagram for H2 MOs
AO AO

22 Fig. 1.19 Energy-level diagram for H2 MOs
antibonding s bonding MO

23 Fig. 1.19 Energy-level diagram for H2 MOs
antibonding s bonding MO

24 Fig. 1.19 Energy-level diagram for H2 MOs
antibonding s bonding MO

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