An experiment was conducted to demonstrate Faraday's Law of induction. A generator was used to create a changing magnetic field through two solenoids containing a u-shaped magnet. When the generator was turned on and off, a current was induced in the second solenoid as measured by a voltmeter for a few milliseconds, showing that a changing magnetic field generates an induced current. The results supported the conclusion that a changing magnetic flux produces an induced current opposite to the change in flux according to Lenz's Law.
This experiment report details an experiment demonstrating Faraday's Law of Induced Electromotive Force. The experiment used a socket, generator, two solenoids, a U-shaped magnet, and voltmeter connected in a circuit. When the generator was turned on and off, creating a changing magnetic field, a brief induced current was observed on the voltmeter, supporting Faraday's Law that a changing magnetic flux induces a current.
An experiment was conducted to demonstrate Faraday's Law of induction. A generator was used to create a changing magnetic field through two solenoids containing a u-shaped magnet. When the generator was turned on and off, a current was induced in the second solenoid as measured by a voltmeter for a few milliseconds, showing that a changing magnetic field generates an induced current. The results supported the conclusion that a changing magnetic flux produces an induced current opposite to the change in flux according to Lenz's Law.
This experiment report details an experiment demonstrating Faraday's Law of Induced Electromotive Force. The experiment used a socket, generator, two solenoids, a U-shaped magnet, and voltmeter connected in a circuit. When the generator was turned on and off, creating a changing magnetic field, a brief induced current was observed on the voltmeter, supporting Faraday's Law that a changing magnetic flux induces a current.