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During a transcranial magnetic stimulation (TMS) treatment, a magnetic field, typically of magnitude 5.00 T, is produced in the brain using external coils. During the treatment, the current in the coils (and hence the magnetic field in the brain) rises from zero to its peak in about 75.0 μs. Assume that the magnetic field is uniform over a circular area of diameter 2.00×10−2 m inside the brain. What is the magnitude |E| of the average induced emf around this region of the brain during the treatment? |E| = V

During a transcranial magnetic stimulation (TMS) treatment, a magnetic field, typically of magnitude 5.00 T, is produced in the brain using external coils. During the treatment, the current in the coils (and hence the magnetic field in the brain) rises from zero to its peak in about 75.0 μs. Assume that the magnetic field is uniform over a circular area of diameter 2.00×10−2 m inside the brain. What is the magnitude |E| of the average induced emf around this region of the brain during the treatment? |E| = V

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During a transcranial magnetic stimulation (TMS) treatment, a magnetic field, typically of magnitude 5.00 T , is produced in the brain using external coils. During the treatment, the current in the coils (and hence the magnetic field in the brain) rises from zero to its peak in about 75.0 μ s . Assume that the magnetic field is uniform over a circular area of diameter 2.00 × 10 2 m inside the brain.
What is the magnitude | E | of the average induced emf around this region of the brain during the treatment?
| E | =
V

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