3. In one experiment, the maximum magnetic field is 2 Tesla and the initial temperature is 300 K....
3. In one experiment, the maximum magnetic field is 2 Tesla and the initial temperature is 300 K. Pretending that a nucleus has only two possible spin states, calculate the magnetization per particle, M/N, for this system. Take nuclear magnetic moment μ to be 5 x 108 ev/T. One can use resonant radio waves to detect such magnetizations. Calculate the energy that a radio wave photon should have to flip a single nucleus from one magnetic state to the other. [20 points] Total: 50 points, Time: 50 minutes
3. In one experiment, the maximum magnetic field is 2 Tesla and the initial temperature is 300 K. Pretending that a nucleus has only two possible spin states, calculate the magnetization per particle, M/N, for this system. Take nuclear magnetic moment μ to be 5 x 108 ev/T. One can use resonant radio waves to detect such magnetizations. Calculate the energy that a radio wave photon should have to flip a single nucleus from one magnetic state to the other. [20 points] Total: 50 points, Time: 50 minutes