Chemistry - Ch 9 Flashcards
Bond angles
the angles made by the lines joining the nuclei of the atoms in the molecule
Valence-shell electron-pair repulsion (VSEPR) model
a model that accounts for the geometric arrangements of shared and unshared electron pairs around a central atom in terms of the repulsions between electron pairs
Bonding pair
in a Lewis structure, a pair of electrons that is shared by two atoms
Electron domain
a region in which the electrons will most likely be found
Nonbonding pair (lone pair)
electron domain that is located principally on one atom
Electron-domain geometry
the arrangement of electron domains about the central atom of an ABn molecule or ione
molecular geometry
arrangement of only the atoms in a molecule or ion (any nonbonding pairs are not part of the description of the molecular geometry
bond dipole
dipole moment that is due only to the two atoms in that bond
Valence bond theory
model of chemical bonding that marries Lewis’ notion of electron-pair bonds and the idea of atomic orbitals
Hybrid orbitals
an orbital that results from the mixing of different kinds of atomic orbitals on the same atom
Hybridization
process of mixing atomic orbitals
Sigma bonds
a covalent bond in which electron density is concentrated along the internuclear axis
Pi bond
covalent bond in which the overlap regions lie above and below the internuclear axis
Delocalized
electrons that are spread over a number of atoms in a molecule rather than localized between a pair of atoms
Molecular orbital theory
describes the electrons in molecules by using specific wave functions called molecular orbitals
Molecular orbitals (MO)
an allowed state for an electron in a molecule; according to molecular-orbital theory, a molecular orbital is entirely analogous to an atomic orbital, which is an allowed state for an electron in an atom; most bonding orbitals can be classified as sigma or pi, depending on the disposition of electron density with respect to the internuclear axis
Bonding molecular orbital
a molecular orbital in which the electron density is concentrated in the internuclear region; the energy a bonding molecular orbital is lower than the energy of the separate atomic orbitals from which it forms
antibonding molecular orbital
a molecular orbital in which electron density is concentrated outside the region between the two nuclei of bonded atoms; such orbitals, designated as sigma or pi, are less stable (of higher energy) than bonding molecular orbitals
Sigma molecular orbitals
a molecular orbital that centers the electron density about an imaginary line passing through two nuclei
Energy-level diagram (molecular orbital diagram)
diagram showing the interacting atomic orbitals in the left and right columns and the molecular orbitals in the middle column
Bond order
half the difference between the number of bonding electrons and the number of antibonding electrons
Pi molecular orbitals
a molecular orbital that concentrates the electron density on opposite sides of an imaginary line that passes through the nuclei
Paramagnetism
a property that a substance possesses if it contains one or more unpaired electrons; a paramagnetic substance is drawn into a magnetic field
Diamagnetism
property a substance possesses if it has no unpaired electrons; weakly repelled from a magnetic field
