1 organic chemistry instructor data professor lev r. ryzhkovsm 553/551 phone 4-3831fax 4-4265 web:...
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Organic ChemistryInstructor Data
Professor Lev R. Ryzhkov SM 553/551Phone 4-3831 FAX 4-4265
Web: pages.towson.edu/ryzhkovE-mail: [email protected]
Office HoursAfter class
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Shapes of Atomic Orbitals Four different kinds of orbitals for electrons based on those
derived for a hydrogen atom Denoted s, p, d, and f s and p orbitals most important in organic chemistry s orbitals: spherical, nucleus at center p orbitals: dumbbell-shaped, nucleus at middle
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Orbitals and Shells Orbitals are grouped in shells of increasing size and energy Different shells contain different numbers and kinds of orbitals Each orbital can be occupied by two electrons First shell contains one s orbital, denoted 1s, holds only two electrons Second shell contains one s orbital (2s) and three p orbitals (2p), eight
electrons Third shell contains an s orbital (3s), three p orbitals (3p), and five d
orbitals (3d), 18 electrons
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2p-Orbitals of Carbon In each shell there
are three perpendicular p orbitals, px, py, and pz, of equal energy
Lobes of a p orbital are separated by region of zero electron density, a node
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The Nature of the Chemical Bond
Atoms form bonds because the compound that results is more stable than the separate atoms
Lewis structures show valence electrons of an atom as dots Hydrogen has one dot, representing its 1s electron Carbon has four dots (2s2 2p2)
Stable molecule results at completed shell, octet
(eight electrons) for main-group atoms (two for hydrogen)
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Ionic vs. Covalent Bond
Typical ionic bond results from complete electron transfer resulting in electrostatically interacting ions.
1s22s22p63s1 1s22s22p6
Na0 + Cl0 = Na+ + Cl-
neutral cation anion
1s22s22p63s23p5 1s22s22p63s23p6
Commonly found when atoms of widely different electro-negativities are combined, i.e. Li and F (1.0 vs. 4.0) or Na and Br (0.9 vs. 2.8)
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Carbon has four valence electrons (2s2 2p2), forming four bonds (CH4) in a stable, long-lived molecules. However, unstable (transient or intermediates) may have less than three bonds.
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Oxygen has six valence electrons (2s2 2p4) and forms two bonds (H2O) or three (oxonium ions).
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Valences of Nitrogen Nitrogen has five valence electrons (2s2 2p3) and can form
ether three bonds (NH3) or four (NH4+)
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Valence electrons not used in bonding are called nonbonding electrons, or lone-pair electrons Nitrogen atom in ammonia (NH3)
Shares six valence electrons in three covalent bonds and remaining two valence electrons are nonbonding lone pair
Lone Pair Electrons
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Hybridization: sp3 Orbitals and the Structure of Methane
Carbon has 4 valence electrons (2s2 2p2) CH4 is tetrahedral sp3 hybrid orbitals: s orbital and three p orbitals combine
to form four equivalent, unsymmetrical, tetrahedral orbitals (sppp = sp3)
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Tetrahedral Structure of Methane sp3 orbitals on C overlap with 1s orbitals on 4 H atom to form
four C-H bonds Each C–H bond has a strength of 438 kJ/mol and length of
110 pm Bond angle: each H–C–H is 109.5°, the tetrahedral angle.
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Hybridization:sp3 Orbitals and the Structure of Ethane
Two C’s bond to each other by overlap of an sp3 orbital from each Three sp3 orbitals on each C overlap with H 1s orbitals to form six C–H bonds C–H bond strength in ethane 420 kJ/mol C–C bond is 154 pm long and strength is 376 kJ/mol All bond angles of ethane are tetrahedral
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Hybridization:sp2 Orbitals and the Structure of Ethylene
sp2 hybrid orbitals: 2s orbital combines with two 2p orbitals, giving 3 orbitals (spp = sp2)
sp2 orbitals are in a plane with120° angles Remaining p orbital is perpendicular to the plane
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Bonds From sp2 Hybrid Orbitals Two sp2-hybridized orbitals overlap to form an bond
p orbitals overlap side-to-side to formation a pi (π) bond
sp2–sp2 bond and 2p–2p π bond result in sharing four electrons and formation of C-C double bond
Electrons in the bond are centered between nuclei
Electrons in the π bond occupy regions are on either side of a line between nuclei
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Structure of Ethylene H atoms form bonds with four sp2 orbitals H–C–H and H–C–C bond angles of about 120° C–C double bond in ethylene shorter and stronger than
single bond in ethane Ethylene C=C bond length 133 pm (C–C 154 pm)
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Hybridization:sp Orbitals and the Structure of Acetylene
C-C a triple bond sharing six electrons Carbon 2s orbital hybridizes with a single p orbital giving two
sp hybrids two p orbitals remain unchanged
sp orbitals are linear, 180° apart on x-axis Two p orbitals are perpendicular on the y-axis and the z-axis
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Orbitals of Acetylene Two sp hybrid orbitals from each C form sp–sp bond pz orbitals from each C form a pz–pz π bond by sideways
overlap and py orbitals overlap similarly
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Bonding in Acetylene Sharing of six electrons forms C-C triple bond Two sp orbitals form bonds with hydrogens
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Hybridization of Nitrogen and Oxygen
Elements other than C can have hybridized orbitals
H–N–H bond angle in ammonia (NH3) 107.3°
N’s orbitals (sppp) hybridize to form four sp3 orbitals
One sp3 orbital is occupied by two nonbonding electrons, and three sp3 orbitals have one electron each, forming bonds to H
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Hybridization of Oxygen in Water The oxygen atom is sp3-hybridized Oxygen has six valence-shell electrons but forms only two
covalent bonds, leaving two lone pairs The H–O–H bond angle is 104.5°
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Formal Charges Sometimes it is necessary to have structures with
formal charges on individual atoms
We compare the bonding of the atom in the molecule to the valence electron structure
If the atom has one more electron in the molecule, it is shown with a “-” charge
If the atom has one less electron, it is shown with a “+” charge
Neutral molecules with both a “+” and a “-” are dipolar
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Summary Atom: positively charged nucleus surrounded by negatively charged electrons Electronic structure of an atom described by wave equation
Electrons occupy orbitals around the nucleus. Different orbitals have different energy levels and different shapes
s orbitals are spherical, p orbitals are dumbbell-shaped
Covalent bonds - electron pair is shared between atoms
Molecular orbital (MO) theory, - bonds result from combination of atomic orbitals to give molecular orbitals, which belong to the entire molecule
Sigma () bonds - Circular cross-section and are formed by head-on interaction
Pi (π) bonds – “dumbbell” shape from sideways interaction of p orbitals Carbon uses hybrid orbitals to form bonds in organic molecules.
In single bonds with tetrahedral geometry, carbon has four sp3 hybrid orbitals In double bonds with planar geometry, carbon uses three equivalent sp2 hybrid
orbitals and one unhybridized p orbital Carbon uses two equivalent sp hybrid orbitals to form a triple bond with linear
geometry, with two unhybridized p orbitals
Atoms such as nitrogen and oxygen hybridize to form strong, oriented bonds The nitrogen atom in ammonia and the oxygen atom in water are sp3-hybridized