Gyromagnetic ratio

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Gyromagnetic Ratio is defined by:

$\gamma = \frac{e}{2m_p}g = g \mu_\mathrm{N}/\hbar,$

where $\displaystyle e$ is the magnitude of electron charge, $\displaystyle m_p$ is the proton mass, $\displaystyle \hbar$ is reduced Planck constant, $\displaystyle \mu_\mathrm{N}$ is the nuclear magneton, and $\displaystyle g$ is the g-factor of the nucleon or nucleus in question.

Approximate values for some common nuclei are given in the Table below.<ref>Template:Cite book</ref>

Nucleus	γ / 2π (MHz/T)
¹H	42.576
²D	6.53593
³He	-32.434
⁷Li	16.546
¹³C	10.705
¹⁴N	3.0766
¹⁵N	-4.3156
¹⁷O	-5.7716
²³Na	11.262
³¹P	17.235
⁷⁵As	7.2919
¹²⁹Xe	-11.777

For information on individual chemical elements please use NMR and EPR Periodic Table

To find NMR frequency of your favorite nucleus at a given magnetic field, see Alex Jerschow's on-line Interactive NMR Frequency Map

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