A 500-turn coil of area 0.00200 m^2 is rotated in a 2.00 T magnetic field. At what frequency, f, must the coil be rotated so that the generator produces a voltage amplitude of 250.0 V? Then, if this generator is to be used to power a device which requires a voltage amplitude of 750.0 V, what is the turns ratio of the transformer required to get the appropriate input voltage? What current is transferred to the device if the generator produces 1.00 A of current?
A 500-turn coil of area 0.00200 m^2 is rotated in a 2.00 T magnetic field.
At what frequency, f, must the coil be rotated so that the generator produces a voltage amplitude of 250.0 V? Then, if this generator is to be used to power a device which requires a voltage amplitude of 750.0 V, what is the turns ratio of the transformer required to get the appropriate input voltage? What current is transferred to the device if the generator produces 1.00 A of current?
Please also explain and show the steps you used to get there/the physics behind why/how you got to the answer to help me better understand. Thank you soo much. Also, the work and the explanation or most important because I already have the correct answer - I'm just unsure of how to get there.
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