Gyromagnetic Ratio in Molecular Spectroscopy Formulas

Gyromagnetic Ratio is the ratio of the magnetic moment of a spinning charged particle to its angular momentum. And is denoted by γ. Gyromagnetic Ratio is usually measured using the Coulomb per Kilogram for Radiation Exposure. Note that the value of Gyromagnetic Ratio is always negative.

Formulas to find Gyromagnetic Ratio in Molecular Spectroscopy

fxGyromagnetic Ratio given Larmor FrequencyGo

Molecular Spectroscopy formulas that make use of Gyromagnetic Ratio

fxNuclear Larmor Frequency given Shielding ConstantGo

fxNuclear Larmor FrequencyGo

List of variables in Molecular Spectroscopy formulas

fx Nuclear Larmor Frequency Go

fx Shielding Constant in NMR Go

fx Magnitude of Magnetic Field in Z-Direction Go

FAQ

What is the Gyromagnetic Ratio?

Gyromagnetic Ratio is the ratio of the magnetic moment of a spinning charged particle to its angular momentum. Gyromagnetic Ratio is usually measured using the Coulomb per Kilogram for Radiation Exposure. Note that the value of Gyromagnetic Ratio is always negative.

Can the Gyromagnetic Ratio be negative?

Yes, the Gyromagnetic Ratio, measured in Radiation Exposure can be negative.

What unit is used to measure Gyromagnetic Ratio?

Gyromagnetic Ratio is usually measured using the Coulomb per Kilogram[C/kg] for Radiation Exposure. Millicoulomb per Kilogram[C/kg], Microcoulomb per Kilogram[C/kg] are the few other units in which Gyromagnetic Ratio can be measured.

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