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Chapter 10 Chemical Bonding II Valence Bond Theory Linus Pauling and others applied the principles of quantum mechanics to molecules they reasoned that bonds between atoms would arise when the orbitals on those atoms interacted to make a bond the kind of interaction depends on whether the orbitals align along the axis between the nuclei, or outside the axis Valence Bond Theory: A quantum mechanical model which shows how electron pairs are shared in a covalent bond. ◦ Bond forms between two atoms when the following conditions are met: ◦ Covalent bonds are formed by overlap of atomic orbitals, each of which contains one electron of opposite spin. ◦ Each of the bonded atoms maintains its own atomic orbitals, but the electron pair in the overlapping orbitals is shared by both atoms. ◦ The greater the amount of overlap, the stronger the bond. 2 Orbital Interaction In some cases, atoms use “simple” atomic orbital (e.g., 1s, 2s, 2p, etc.) to form bonds. In other case, they use a “mixture” of simple atomic orbitals known as “hybrid” atomic orbitals. as two atoms approached, the partially filled or empty valence atomic orbitals on the atoms would interact to form molecular orbitals the molecular orbitals would be more stable than the separate atomic orbitals because they would contain paired electrons shared by both atoms 3 Valence Bond Theory - Hybridization one of the issues that arose was that the number of partially filled or empty atomic orbital did not predict the number of bonds or orientation of bonds ◦ C = 2s22px12py12pz0 would predict 2 or 3 bonds that are 90° apart, rather than 4 bonds that are 109.5° apart to adjust for these inconsistencies, it was postulated that the valence atomic orbitals could hybridize before bonding took place ◦ one hybridization of C is to mix all the 2s and 2p orbitals to get 4 orbitals that point at the corners of a tetrahedron 4 Valence Bond Theory Main Concepts 1. 2. 3. the valence electrons in an atom reside in the quantum mechanical atomic orbitals or hybrid orbitals a chemical bond results when these atomic orbitals overlap and there is a total of 2 electrons in the new molecular orbital a) the electrons must be spin paired the shape of the molecule is determined by the geometry of the overlapping orbitals 5 Types of Bonds a sigma (s) bond results when the bonding atomic orbitals point along the axis connecting the two bonding nuclei ◦ either standard atomic orbitals or hybrids s-to-s, p-to-p, hybrid-tohybrid, s-to-hybrid, etc. a pi (p) bond results when the bonding atomic orbitals are parallel to each other and perpendicular to the axis connecting the two bonding nuclei ◦ between unhybridized parallel p orbitals the interaction between parallel orbitals is not as strong as between orbitals that point at each other; therefore s bonds are stronger than p bonds 6 Tro, Chemistry: A Molecular Approach 7 Hybridization some atoms hybridize their orbitals to maximize bonding ◦ hybridizing is mixing different types of orbitals to make a new set of degenerate orbitals ◦ sp, sp2, sp3, sp3d, sp3d2 ◦ more bonds = more full orbitals = more stability better explain observed shapes of molecules same type of atom can have different hybridization depending on the compound ◦ C = sp, sp2, sp3 8 Hybrid Orbitals H cannot hybridize!! the number of standard atomic orbitals combined = the number of hybrid orbitals formed the number and type of standard atomic orbitals combined determines the shape of the hybrid orbitals the particular kind of hybridization that occurs is the one that yields the lowest overall energy for the molecule ◦ in other words, you have to know the structure of the molecule beforehand in order to predict the hybridization 9 sp3 Hybridization of C 10 3 sp Hybridization atom with 4 areas of electrons ◦ tetrahedral geometry ◦ 109.5° angles between hybrid orbitals atom uses hybrid orbitals for all bonds and lone pairs H s H sp3 •• sp3 C N H s H H 11 Methane Formation with sp3 C Ammonia Formation with sp3 N 12 2 sp atom with 3 areas of electrons ◦ trigonal planar system C = trigonal planar N = trigonal bent O = “linear” ◦ 120° bond angles ◦ flat atom uses hybrid orbitals for s bonds and lone pairs, uses nonhybridized p orbital for p bond 13 3-D representation of ethane (C2H4) 14 Bond Rotation because orbitals that form the s bond point along the internuclear axis, rotation around that bond does not require breaking the interaction between the orbitals but the orbitals that form the p bond interact above and below the internuclear axis, so rotation around the axis requires the breaking of the interaction between the orbitals 15 sp atom with 2 areas of electrons ◦ linear shape ◦ 180° bond angle atom uses hybrid orbitals for s bonds or lone pairs, uses nonhybridized p orbitals for p bonds 16 3 sp d atom with 5 areas of electrons around it ◦ trigonal bipyramid shape ◦ See-Saw, T-Shape, Linear ◦ 120° & 90° bond angles use empty d orbitals from valence shell d orbitals can be used to make p bonds 17 3 2 sp d atom with 6 areas of electrons around it ◦ octahedral shape ◦ Square Pyramid, Square Planar ◦ 90° bond angles use empty d orbitals from valence shell d orbitals can be used to make p bonds 18 Five types of hybrid are shown below # of e- groups around central atom 2 Hybrid orbitals used sp 3 sp2 4 sp3 5 sp3d 6 sp3d2 Orientation of Hybrid Orbitals 19 Predicting Hybridization and Bonding Scheme 1) 2) 3) 4) 5) Start by drawing the Lewis Structure Use VSEPR Theory to predict the electron group geometry around each central atom Use Table 10.3 to select the hybridization scheme that matches the electron group geometry Sketch the atomic and hybrid orbitals on the atoms in the molecule, showing overlap of the appropriate orbitals Label the bonds as s or p 20 Examples: Predict the Hybridization and Bonding Scheme of All the Atoms in Then sketch a σ framework and a π framework •• •O • •• N CH3CHO CH2NH H3BO3 •• Cl •• •• 21 Problems with Valence Bond Theory VB theory predicts many properties better than Lewis Theory ◦ bonding schemes, bond strengths, bond lengths, bond rigidity however, there are still many properties of molecules it doesn’t predict perfectly ◦ magnetic behavior of O2 22