After stimulation, the protons relax and energy is captured by the receiver antenna, resulting in the MRI signal. Which statement best describes the source of the MRI signal?

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Multiple Choice

After stimulation, the protons relax and energy is captured by the receiver antenna, resulting in the MRI signal. Which statement best describes the source of the MRI signal?

Explanation:
The MRI signal comes from hydrogen protons. In the strong magnetic field, protons are excited by a radiofrequency pulse and tipped into the transverse plane. As they relax back to alignment with the main field, they emit radiofrequency energy. The receiver coil detects this emitted energy, which is the MR signal. Electrons don’t produce the MRI signal in this context, and gamma rays from neutron decay aren’t involved in MRI. If protons stayed in an excited state, no detectable signal would be produced.

The MRI signal comes from hydrogen protons. In the strong magnetic field, protons are excited by a radiofrequency pulse and tipped into the transverse plane. As they relax back to alignment with the main field, they emit radiofrequency energy. The receiver coil detects this emitted energy, which is the MR signal. Electrons don’t produce the MRI signal in this context, and gamma rays from neutron decay aren’t involved in MRI. If protons stayed in an excited state, no detectable signal would be produced.

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