Definition of gyromagnetic in English:
gyromagnetic
adjective ˌdʒʌɪrəʊmaɡˈnɛtɪkˌdʒaɪroʊmæɡˈnɛdɪk
1Physics
Relating to the magnetic and mechanical properties of a rotating charged particle.
Example sentencesExamples
- The classical gyromagnetic ratio of an orbiting or a rotating electron is defined as the ratio of the magnetic moment to the angular momentum.
- Where [gamma] is the gyromagnetic ratio of protons, g is the gradient strength, [delta] is the gradient pulse length, and T is the time between the gradient pulses sandwiching the 180 [degrees] pulses.
- Deuterium is a relatively insensitive nucleus because it has a low gyromagnetic ratio and the spectral intensity is generally spread over an extremely wide frequency range due to the quadrupole interaction.
- Gyromagnetic resonance spectrometers essentially comprise a high-frequency generator supplying a circuit which concentrates the electromagnetic energy on a specimen, the latter being arranged in a continuous magnetic polarization field.
- For a Kerr-Newman black hole (and for many other charged solutions in general relativity) the gyromagnetic ratio is exactly 2.
2(of a compass) combining a gyroscope and a normal magnetic compass.
Definition of gyromagnetic in US English:
gyromagnetic
adjectiveˌjīrōmaɡˈnedikˌdʒaɪroʊmæɡˈnɛdɪk
1Physics
Relating to the magnetic and mechanical properties of a rotating charged particle.
Example sentencesExamples
- Deuterium is a relatively insensitive nucleus because it has a low gyromagnetic ratio and the spectral intensity is generally spread over an extremely wide frequency range due to the quadrupole interaction.
- Gyromagnetic resonance spectrometers essentially comprise a high-frequency generator supplying a circuit which concentrates the electromagnetic energy on a specimen, the latter being arranged in a continuous magnetic polarization field.
- The classical gyromagnetic ratio of an orbiting or a rotating electron is defined as the ratio of the magnetic moment to the angular momentum.
- Where [gamma] is the gyromagnetic ratio of protons, g is the gradient strength, [delta] is the gradient pulse length, and T is the time between the gradient pulses sandwiching the 180 [degrees] pulses.
- For a Kerr-Newman black hole (and for many other charged solutions in general relativity) the gyromagnetic ratio is exactly 2.
2(of a compass) combining a gyroscope and a normal magnetic compass.