Viewed from the and at a particular moment, a solenoid of diameter d =4.0 cm and n=10000 turns/m carries a clockwise current of I=100.0 A and the current is decreasing at a uniform rate of A=50.0 A/s. Calculate the magnitude and direction of the induced electric field at point P a distance of 1.0 cm below the central axis and embedded in the solenoid region. See Figure. Use one of Maxwell's equations and include geometrical reasoning. I 4.0 cm 1.0 cm P
Viewed from the and at a particular moment, a solenoid of diameter d =4.0 cm and n=10000 turns/m carries a clockwise current of I=100.0 A and the current is decreasing at a uniform rate of A=50.0 A/s. Calculate the magnitude and direction of the induced electric field at point P a distance of 1.0 cm below the central axis and embedded in the solenoid region. See Figure. Use one of Maxwell's equations and include geometrical reasoning. I 4.0 cm 1.0 cm P
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Transcribed Image Text:Viewed from the and at a particular moment, a solenoid of diameter d =4.0 cm and n =10000 turns/m carries a
clockwise current of I=100.0 A and the current is decreasing at a uniform rate of = 50.0 A/s. Calculate the
magnitude and direction of the induced electric field at point P a distance of 1.0 cm below the central
axis and embedded in the solenoid region. See Figure. Use one of Maxwell's equations and include geometrical
reasoning.
I
4.0 cm
1.0 cm
P
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