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Spin Coupling

  • Page ID
    39386
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    The resonance of a nucleus in a molecule is affected by the proximate non-equivalent nuclei (see equivalent ligands). This phenomenon is known as spin coupling or, simply, coupling. eg. 1:

    spincoupling1.png

    In 1, Ha and Hb are non-equivalent. They are on adjacent carbon atoms and, therefore, in close proximity. Consequently, the resonance of Ha is affected by that of Hb and vice versa. eg. 2:

    spincoupling2.png

    In 2, Ha and Hb are non-equivalent. They are on the same carbon atom and, therefore, in close proximity. Consequently, the resonance of Ha is affected by that of Hb and vice versa.

    The multiplicity and the splitting pattern of an NMR peak of a given nucleus in a molecule is determined by the number of nuclei it is coupled to. Hydrogen nuclei in organic molecules couple with geminal hydrogens and with vicinal hydrogens. Coupling between hydrogen nuclei farther apart is observed occasionally and known as long-range coupling.

    see also (n+1) Rule


    This page titled Spin Coupling is shared under a All Rights Reserved (used with permission) license and was authored, remixed, and/or curated by Gamini Gunawardena via source content that was edited to the style and standards of the LibreTexts platform; a detailed edit history is available upon request.

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