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=====Magnetic Resonance (40 minutes)=====
{{courses:lecture:splec:sprabimagneticresonance.ppt|}} (Slides 9-16)

  * Remind the students that this is more advanced than what they have been covering for several reasons.
  - The magnetic field has both a z-component and a component rotating in the relative xy-plane.
  - The Hamiltonian has a time dependence.
  - The calculation requires the viewer to solve the Schrodinger equation in a rotating frame to remove the time dependence of the Hamiltonian.
  * Reassure them that this topic involves more complex calculations than they have seen before, but it's nothing they cannot do.  A good strategy is to consistently look for bra-ket notation that we have seen throughout the course; it's easier to keep track using this representation than the matrix notation (although the matrix representation is necessary for the calculations).

//**Providing the slides in a handout form is often beneficial for students so they can discuss and review the calculations at a later time and at their own pace.**//
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