7.3 : Atomic Nuclei: Nuclear Magnetic Moment

Atomic nuclei, being positively charged, behave like rotating charges when they have a nonzero spin.

The nucleus generates a magnetic field, B, due to its spin and charge. So, it has a magnetic moment, μ, which is randomly oriented in the absence of an external magnetic field.

When an external magnetic field, B₀, is applied, the magnetic moment vectors can align with or against the field in 2I + 1 orientations.

A hydrogen nucleus, or a proton, has an I value of ½ and two possible orientations.

The orientation aligned with the field, called spin +½, spin-up, or α, has a lower energy than the spin −½, spin-down, or β orientation aligned against the field.

All atomic nuclei are positively charged. When they have a nonzero spin, they behave like rotating charges. As a consequence of their charge and spin, these nuclei generate a magnetic field (B). This, in turn, gives rise to a magnetic moment (μ), which is randomly oriented in the absence of an external magnetic field. When an external magnetic field (B₀) is applied, the magnetic moment vectors can align with the field or against it in 2 Equation1 + 1 orientations. A hydrogen nucleus, which is just a proton, has an value of ½ and two possible orientations. The orientation aligned with the field (called spin +½, spin-up, or α) has lower energy than the orientation aligned against the field (called spin −½, spin-down, or β).

Tags

Atomic Nuclei Nuclear Magnetic Moment Positively Charged Nonzero Spin Rotating Charges Magnetic Field Magnetic Moment External Magnetic Field Hydrogen Nucleus Proton Spin Orientations Energy Levels

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7.3 : Atomic Nuclei: Nuclear Magnetic Moment

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