a. Suppose a single loop of wire lies in the horizontal plane in a uniform magnetic field that points 10.6 degrees away from vertical. The loop has an area of 0.251 m?. The uniform magnetic field has a strength of 2.37 T. What is the magnetic flux through the loop? Wb b. Suppose that instead of the loop of wire from part a you place a 134-turn coil into the same magnetic field. This coil has the same area as the single loop from part a. You also orient this coil of wire so that it is in the horizontal plane (just like the loop was). . Wb Submit answer
a. Suppose a single loop of wire lies in the horizontal plane in a uniform magnetic field that points 10.6 degrees away from vertical. The loop has an area of 0.251 m?. The uniform magnetic field has a strength of 2.37 T. What is the magnetic flux through the loop? Wb b. Suppose that instead of the loop of wire from part a you place a 134-turn coil into the same magnetic field. This coil has the same area as the single loop from part a. You also orient this coil of wire so that it is in the horizontal plane (just like the loop was). . Wb Submit answer
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Transcribed Image Text:a. Suppose a single loop of wire lies in the horizontal plane in a uniform magnetic field that points 10.6 degrees away
from vertical. The loop has an area of 0.251 m². The uniform magnetic field has a strength of 2.37 T. What is the
magnetic flux through the loop?
Wb
b. Suppose that instead of the loop of wire from part a you place a 134-turn coil into the same magnetic field. This
coil has the same area as the single loop from part a. You also orient this coil of wire so that it is in the horizontal
plane (just like the loop was).
* Wb
Submit answer
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