I need the answer quickly Q#1(a) Apply Faraday's law, which is the relationship between an induced emf in a conducting loopand the rate at which magnetic flux through the loop changes.(b) Find the magnetic force FB acting on a moving charged particle by evaluating the crossproduct q (VxB) in unit-vector notation and magnitude angle notation.(c) With a real battery in a circuit, calculate the potential difference between its terminals forcurrent in the direction of the emf and in the opposite direction.

Faraday's law of electromagnetic induction states that any change in magnetic flux associated with a…

Answered: Q#1 (a) Apply Faraday's law, which is…

Q#1 (a) Apply Faraday's law, which is the relationship between an induced emf in a conducting loop and the rate at which magnetic flux through the loop changes.

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Question

I need the answer quickly

Q#1
(a) Apply Faraday's law, which is the relationship between an induced emf in a conducting loop
and the rate at which magnetic flux through the loop changes.
(b) Find the magnetic force FB acting on a moving charged particle by evaluating the cross
product q (VxB) in unit-vector notation and magnitude angle notation.
(c) With a real battery in a circuit, calculate the potential difference between its terminals for
current in the direction of the emf and in the opposite direction.

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