A flat coil of wire is used with an LC-tuned circuit as a receiving antenna. The coil has a radius of 0.26 m and consists of 660 turns. The transmitted radio wave has a frequency of 1.1 MHz. The magnetic field of the wave is parallel to the normal to the coil and has a maximum value of 2.7 × 10-¹¹ T. Using Faraday's law of electromagnetic induction and the fact that the magnetic field changes from zero to its maximum value in one- quarter of a wave period, find the magnitude of the average emf induced in the antenna during this time. Number i Units <

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Chapter1: Units, Trigonometry. And Vectors
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A flat coil of wire is used with an LC-tuned circuit as a receiving
antenna. The coil has a radius of 0.26 m and consists of 660
turns. The transmitted radio wave has a frequency of 1.1 MHz.
The magnetic field of the wave is parallel to the normal to the
coil and has a maximum value of 2.7 × 10-¹¹ T. Using Faraday's
law of electromagnetic induction and the fact that the
magnetic field changes from zero to its maximum value in one-
quarter of a wave period, find the magnitude of the average
emf induced in the antenna during this time.
Number
i
Units
<
Transcribed Image Text:A flat coil of wire is used with an LC-tuned circuit as a receiving antenna. The coil has a radius of 0.26 m and consists of 660 turns. The transmitted radio wave has a frequency of 1.1 MHz. The magnetic field of the wave is parallel to the normal to the coil and has a maximum value of 2.7 × 10-¹¹ T. Using Faraday's law of electromagnetic induction and the fact that the magnetic field changes from zero to its maximum value in one- quarter of a wave period, find the magnitude of the average emf induced in the antenna during this time. Number i Units <
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