Scientific work is currently underway to determine whether weak oscillating magnetic fields can affect human health. For example, one study found that drivers of trains had a higher incidence of blood cancer than other railway workers, possibly due to long exposure to mechanical devices in the train engine cab. Consider a magnetic field of magnitude 0.00100 T, oscillating sinusoidally at 54.5 Hz. If the diameter of a red blood cell is 7.00 µm, determine the maximum emf that can be generated around the perimeter of a cell in this field.   Note: See image for the orignal question.

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Scientific work is currently underway to determine whether weak oscillating magnetic fields can affect human health. For example, one study found that drivers of trains had a higher incidence of blood cancer than other railway workers, possibly due to long exposure to mechanical devices in the train engine cab. Consider a magnetic field of magnitude 0.00100 T, oscillating sinusoidally at 54.5 Hz. If the diameter of a red blood cell is 7.00 µm, determine the maximum emf that can be generated around the perimeter of a cell in this field.

 

Note: See image for the orignal question.

Scientific work is currently underway to determine whether weak oscillating magnetic fields can affect human health. For example, one study found that drivers of trains had
a higher incidence of blood cancer than other railway workers, possibly due to long exposure to mechanical devices in the train engine cab. Consider a magnetic field of
magnitude 0.00100 T, oscillating sinusoidally at 54.5 Hz. If the diameter of a red blood cell is 7.00 µm, determine the maximum emf that can be generated around the
perimeter of a cell in this field.
V
Transcribed Image Text:Scientific work is currently underway to determine whether weak oscillating magnetic fields can affect human health. For example, one study found that drivers of trains had a higher incidence of blood cancer than other railway workers, possibly due to long exposure to mechanical devices in the train engine cab. Consider a magnetic field of magnitude 0.00100 T, oscillating sinusoidally at 54.5 Hz. If the diameter of a red blood cell is 7.00 µm, determine the maximum emf that can be generated around the perimeter of a cell in this field. V
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