Below is a closed conducting loop within a magnetic field (for direction see picture). The loop is a circle with a radius of r = 15.00 cm. The magnetic field is decreasing in the direction shown at a rate of dB/dt = 121.0 mT/s. The circle wire has 370.0 loops around it. The wire has a total resistance of R = 9.30 Ohms. Magnetic Field (into the page) What is the induced current around the wire in this system? (use a negative value for a clockwise current) Make sure to give your answer in an appropriate number of significant figures as well as including units with your answer.

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Chapter1: Units, Trigonometry. And Vectors
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Induced EMF
Below is a closed conducting loop within a magnetic field (for direction see picture).
The loop is a circle with a radius of r = 15.00 cm. The magnetic field is decreasing in
the direction shown at a rate of dB/dt = 121.0 mT/s. The circle wire has 370.0 loops
around it. The wire has a total resistance of R = 9.30 Ohms.
Magnetic Field (into the page)
What is the induced current around the wire in this system? (use a negative value
for a clockwise current)
Make sure to give your answer in an appropriate number of significant figures as well
as including units with your answer.
Your Answer:
Answer
units
Transcribed Image Text:Induced EMF Below is a closed conducting loop within a magnetic field (for direction see picture). The loop is a circle with a radius of r = 15.00 cm. The magnetic field is decreasing in the direction shown at a rate of dB/dt = 121.0 mT/s. The circle wire has 370.0 loops around it. The wire has a total resistance of R = 9.30 Ohms. Magnetic Field (into the page) What is the induced current around the wire in this system? (use a negative value for a clockwise current) Make sure to give your answer in an appropriate number of significant figures as well as including units with your answer. Your Answer: Answer units
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