9.6: Key Terms

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Example and Directions
Words (or words that have the same definition)	The definition is case sensitive	(Optional) Image to display with the definition [Not displayed in Glossary, only in pop-up on pages]	(Optional) Caption for Image	(Optional) External or Internal Link	(Optional) Source for Definition
(Eg. "Genetic, Hereditary, DNA ...")	(Eg. "Relating to genes or heredity")		The infamous double helix	https://bio.libretexts.org/	CC-BY-SA; Delmar Larsen

Glossary Entries
Word(s)	Definition	Image	Caption	Link	Source
antibonding orbital	molecular orbital located outside of the region between two nuclei; electrons in an antibonding orbital destabilize the molecule
bond order	number of pairs of electrons between two atoms; it can be found by the number of bonds in a Lewis structure or by the difference between the number of bonding and antibonding electrons divided by two
bonding orbital	molecular orbital located between two nuclei; electrons in a bonding orbital stabilize a molecule
degenerate orbitals	orbitals that have the same energy
diamagnetism	phenomenon in which a material is not magnetic itself but is repelled by a magnetic field; it occurs when there are only paired electrons present
homonuclear diatomic molecule	molecule consisting of two identical atoms
hybrid orbital	orbital created by combining atomic orbitals on a central atom
hybridization	model that describes the changes in the atomic orbitals of an atom when it forms a covalent compound
linear combination of atomic orbitals	technique for combining atomic orbitals to create molecular orbitals
molecular orbital	region of space in which an electron has a high probability of being found in a molecule
molecular orbital diagram	visual representation of the relative energy levels of molecular orbitals
molecular orbital theory	model that describes the behavior of electrons delocalized throughout a molecule in terms of the combination of atomic wave functions
node	plane separating different lobes of orbitals, where the probability of finding an electron is zero
overlap	coexistence of orbitals from two different atoms sharing the same region of space, leading to the formation of a covalent bond
paramagnetism	phenomenon in which a material is not magnetic itself but is attracted to a magnetic field; it occurs when there are unpaired electrons present
pi bond (π bond)	covalent bond formed by side-by-side overlap of atomic orbitals; the electron density is found on opposite sides of the internuclear axis
s-p mixing	change that causes σ_p orbitals to be less stable than π_p orbitals due to the mixing of s and p-based molecular orbitals of similar energies.
sigma bond (σ bond)	covalent bond formed by overlap of atomic orbitals along the internuclear axis
sp hybrid orbital	one of a set of two orbitals with a linear arrangement that results from combining one s and one p orbital
sp² hybrid orbital	one of a set of three orbitals with a trigonal planar arrangement that results from combining one s and two p orbitals
sp³ hybrid orbital	one of a set of four orbitals with a tetrahedral arrangement that results from combining one s and three p orbitals
sp³d hybrid orbital	one of a set of five orbitals with a trigonal bipyramidal arrangement that results from combining one s, three p, and one d orbital
sp³d² hybrid orbital	one of a set of six orbitals with an octahedral arrangement that results from combining one s, three p, and two d orbitals
valence bond theory	description of bonding that involves atomic orbitals overlapping to form σ or π bonds, within which pairs of electrons are shared
π bonding orbital	molecular orbital formed by side-by-side overlap of atomic orbitals, in which the electron density is found on opposite sides of the internuclear axis
π* bonding orbital	antibonding molecular orbital formed by out of phase side-by-side overlap of atomic orbitals, in which the electron density is found on both sides of the internuclear axis, and there is a node between the nuclei
σ bonding orbital	molecular orbital in which the electron density is found along the axis of the bond
σ* bonding orbital	antibonding molecular orbital formed by out-of-phase overlap of atomic orbital along the axis of the bond, generating a node between the nuclei

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