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General Physics 2
- Law of Electromagnetic Induction
Goodbye Sir Castro!
That concludes today's lesson. You are now free to return home.
Meanwhile, in the Public Library...
Can you assist me with our Physics assignment, Anthony? I'm having a lot of trouble with that...
Yes, Abigail! Isn't that all about electrostatic and induced electric fields?
A time-varying magnetic flux induces an electric field, according to Faraday's law. Magnetic flux is best understood as the strength of a magnetic field in a given area, or the amount of magnetism, and can be visualized as a concentration of magnetic field lines across a surface.
The first thing to remember is that an electrostatic field is created when static electric charges are separated.
But how?
So electrostatic fields are solely determined by an object's charges in relation to its environment, whereas induced fields are determined by the fluctuation of a magnetic field?
Changing magnetic fields cause magnetic induction, also known as the induced electric field, and static or unmoving charges produce a static or unchanging electric field.
Yup! You've got it now!
Wow! Anthony, thank you so much! Without you, I wouldn't be able to comprehend it!
No problem Abigail! Just let me know if you ever need more.
By the way, since it's already 5 p.m., I'm going home now; want to walk with me?
I would love to! Come on, let's go!#160;

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