A current of 34.5 A passes clockwise around a large ideal solenoid which is 1.66 m long with 233,975 turns. A smaller single-turn square loop with sides of 3.79 cm x 3.79 cm is located inside the solenoid. calculate the magnetic field created inside the solenoid. Calculate the magnetic flux through the square loop inside the solenoid with the assumption that the magnetic field passes straight through the loop. If the current in the solenoid is rapidly reduced to 0 A is a time of only 0.125 seconds, calculate the average induced emf in the square loop.
A current of 34.5 A passes clockwise around a large ideal solenoid which is 1.66 m long with 233,975 turns. A smaller single-turn square loop with sides of 3.79 cm x 3.79 cm is located inside the solenoid. calculate the magnetic field created inside the solenoid. Calculate the magnetic flux through the square loop inside the solenoid with the assumption that the magnetic field passes straight through the loop. If the current in the solenoid is rapidly reduced to 0 A is a time of only 0.125 seconds, calculate the average induced emf in the square loop.
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A current of 34.5 A passes clockwise around a large ideal solenoid which is 1.66 m long with 233,975 turns. A smaller single-turn square loop with sides of 3.79 cm x 3.79 cm is located inside the solenoid.
calculate the magnetic field created inside the solenoid.
Calculate the magnetic flux through the square loop inside the solenoid with the assumption that the magnetic field passes straight through the loop.
If the current in the solenoid is rapidly reduced to 0 A is a time of only 0.125 seconds, calculate the average induced emf in the square loop.
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