| 1. | The non-uniform current density must also be considered when calculating the magnetic flux density.
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| 2. | H is the applied external magnetic field, M is the total magnetic flux density of the material.
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| 3. | If the current is not changing, then the Hall voltage is a measure of the magnetic flux density.
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| 4. | Sometimes the term "'retentivity "'is used for remanence measured in units of magnetic flux density.
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| 5. | The equation for the on-axis magnetic flux density of a Bitter disc becomes much more complex as a result.
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| 6. | This is because the internal magnetic domains of the material align with each other to greatly enhance the magnetic flux density.
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| 7. | This is a derivation of the magnetic flux density around a solenoid that is long enough so that fringe effects can be ignored.
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| 8. | Where p is the momentum of the positron, e is the charge of the positron and B is the magnetic flux density.
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| 9. | The magnetic flux density is increased by 30 % in the coil rolling direction, although its magnetic saturation is decreased by 5 %.
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| 10. | It should also be noted that in most older literature, is called the " magnetic flux density " or " magnetic induction ".
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