degenerate

(adjective)

Having the same quantum energy level.

Related Terms

Examples of degenerate in the following topics:

  • The Third Law of Thermodynamics and Absolute Energy

    • An example of a system which does not have a unique ground state is one containing half-integer spins, for which there are two degenerate ground states.
    • In addition, glasses and solid solutions retain large entropy at absolute zero, because they are large collections of nearly degenerate states, in which they become trapped out of equilibrium.
    • Materials that remain paramagnetic at absolute zero, by contrast, may have many nearly-degenerate ground states, as in a spin glass, or may retain dynamic disorder, as is the case in a spin liquid.

  • Octahedral Complexes

    • For a free ion, such as gaseous Ni2+ or Mo, the d orbitals are degenerate.

  • Wave Equation for the Hydrogen Atom

    • For the hydrogen atom, states of the same n but different ℓ are also degenerate (they have the same energy).
    • Explain how the solution of the Schrödinger equation for the hydrogen atom yields the four quantum numbers and use these to identify degenerate states

  • Crystal Field Theory

    • In most cases, the d orbitals are degenerate, but sometimes they can split, with the eg and t2g subsets having different energy.

  • Reactions of Coordination Compounds

    • One important indicator of reactivity is the rate of degenerate exchange of ligands.

  • Sigmatropic Rearrangements

    • The degenerate or self-replicating Cope rearrangement has been a fascinating subject of research.

  • Description of the Hydrogen Atom

    • In addition, for the hydrogen atom, states of the same n but different ℓ are also degenerate (i.e. they have the same energy).

  • Properties of Oxygen

    • The electron configuration of the molecule has two unpaired electrons occupying two degenerate molecular orbitals.

  • Semiconductors

    • When a semiconductor is doped to such a high level that it acts more like a conductor than a semiconductor, it is referred to as degenerate.

  • Hund's Rule

    • Although the implications are clear for orbitals of different principal quantum number (n), which are clearly of different energy, the filling order is less clear for degenerate sublevels.