4. A coil with 105 turns and an area of 1.45 m² is rotating in a magnetic field of 2.3 T. The coil is rotating at a rate of 25° per second. a. What is the induced emf in the ring? Choose the specific case of the coil moving from 0° to 25°. b. The ring has a resistance of 1.4 2. What is the current in the ring? C. What is the power dissipated in the ring? I

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Simulation
Use this Phet Simulation of a generator to explore both Faraday's Law (magnitude of emf) and Lenz's Law
(direction of emf). You can use the tabs toward the top of the simulation to access the "Generator". After exploring
for a bit, make up two of your own questions about the simulator. One question should address Faraday's Law and
the other should refer to Lenz's Law. Please also provide the answers to your questions.
E
Transcribed Image Text:Simulation Use this Phet Simulation of a generator to explore both Faraday's Law (magnitude of emf) and Lenz's Law (direction of emf). You can use the tabs toward the top of the simulation to access the "Generator". After exploring for a bit, make up two of your own questions about the simulator. One question should address Faraday's Law and the other should refer to Lenz's Law. Please also provide the answers to your questions. E
Words
RE
English (US)
4. A coil with 105 turns and an area of 1.45 m² is rotating in a magnetic field of 2.3 T. The coil is rotating
at a rate of 25° per second.
a.
What is the induced emf in the ring? Choose the specific case of the coil moving from 0° to 25°.
b. The ring has a resistance of 1.4 2. What is the current in the ring?
C. What is the power dissipated in the ring?
I
Transcribed Image Text:Words RE English (US) 4. A coil with 105 turns and an area of 1.45 m² is rotating in a magnetic field of 2.3 T. The coil is rotating at a rate of 25° per second. a. What is the induced emf in the ring? Choose the specific case of the coil moving from 0° to 25°. b. The ring has a resistance of 1.4 2. What is the current in the ring? C. What is the power dissipated in the ring? I
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