Faraday's, Faraday's Law. And we'll quantify this more in future videos but it's just the notion that if I have a loop of wire and I have a changing magnetic flux through the loop of wire, that is …

Learn what magnetic flux is, how to calculate it, and how it relates to Faraday's law. Imagine we have a magnetic field, produced by a permanent magnet or a current-carrying wire. Now …

Learn what Faraday's law means and how to use it to determine the induced electro-motive force.

And we know from Faraday's law that when you have a change in your flux that that's going to induce a current in the loop. And so an interesting question is what direction is that current …

Practice solving quantitative electrolysis problems in this set of free questions designed for AP Chemistry students.

It’s covered in the article directly before this video in the AP Physics 2 course. The article is called “Magnetic flux and Faraday’s law.”

Apply Faraday’s law to calculate the amount of substance produced or consumed during electrolysis. Relate electric charge, current, time, and moles of electrons.

Practice Faraday's law - magnitude of induced emf (average) Get 3 of 4 questions to level up!

But here is what Faraday discovered. If we go back to our coil and the magnet experiment, we saw that when we move the magnet close or moved it away, that's when the bulb glowed.

Electrolysis equation: I = Q t Electrolysis variables and constants: I = current (amperes) Q = charge (coulombs) t = time (seconds) Faraday’s constant, F = 96,485 coulombs per mole = …