Magnetic Susceptibility

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Presentation transcript:

Magnetic Susceptibility

Magnetism Magnetic Susceptibility Nuclear Magnetic Resonance (NMR) Electron Paramagnetic Resonance (EPR) Hall Probes Magnetoresistors Fluxgate Magnetometers Flux Measurements with Pick Up Coils Magnetic Alignment –center and direction

Magnetic Susceptibility Principle Questions you may have include: What are ferromagnetic materials? What are paramagnetic materials? What are diamagnetic materials?

Magnetic Moments Magnetic moment (μ): relates directly to the number of unpaired electrons Susceptibility and magnetic moment can be determined experimentally using a Guoy Balance: For paramagnetic substance, unpaired electrons are attracted by the magnetic field and an apparent increase in mass of the sample occurs when the field is switch on

NMR/EPR Principle A particle with a spin and a magnetic moment precesses around an applied field. The quantum energy levels are split into several discrete levels, depending on the spin of the particle. The energy gap between these levels is proportional to the applied field. A resonant absorption of RF energy occurs at a frequency corresponding to energy gap.