The figure (Figure 1) shows a portion of a silver ribbon with z = 12.0 mm and y =0.23 mm, carrying a current of 110 A in the +z-direction. The ribbon lies in a uniform magnetic field, in the y-direction, with magnitude 0.03 T. Apply the simplified model of the Hall effect. Part B Find the magnitude of the electric field in the z-direction due to the Hall effect. Express your answer in volts per meter.
The figure (Figure 1) shows a portion of a silver ribbon with z = 12.0 mm and y =0.23 mm, carrying a current of 110 A in the +z-direction. The ribbon lies in a uniform magnetic field, in the y-direction, with magnitude 0.03 T. Apply the simplified model of the Hall effect. Part B Find the magnitude of the electric field in the z-direction due to the Hall effect. Express your answer in volts per meter.
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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Transcribed Image Text:The figure (Figure 1) shows a portion of a silver ribbon with z = 12.0 mm and y =0.23 mm,
carrying a current of 110 A in the +z-direction. The ribbon lies in a uniform magnetic field, in the
v-direction, with magnitude 0.93 T. Apply the simplified model of the Hall effect.
• Part B
Find the magnitude of the electric field in the z-direction due to the Hall effect.
Express your answer in volts per meter.
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Part C
Find the direction of the electric field in the z-direction due to the Hall effect.
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Part D
B
Find the Hall emf.
Express your answer in volts.
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