1.) A 200 turn, 25cm long ideal solenoid with current I = 10t (where t is time measured in seconds and I is current measured in amperes) has a diameter of 3cm. The axis of the solenoid is perpendicular to the plain of the paper (z-axis) and a single rectangular loop with an inductor and resistor wrap around the solenoid and is in the plain of the paper (x-y plain). a. What is the magnitude of the EMF induced in the rectangular loop? b. If the inductance is 300mH and the resistance is 1000, what is the current in the resistor 3ms after the current started in the solenoid? ww

1.) A 200 turn, 25cm long ideal solenoid with current I = 10t (where t is time measured in seconds and I is current measured in amperes) has a diameter of 3cm. The axis of the solenoid is perpendicular to the plain of the paper (z-axis) and a single rectangular loop with an inductor and resistor wrap around the solenoid and is in the plain of the paper (x-y plain). a. What is the magnitude of the EMF induced in the rectangular loop? b. If the inductance is 300mH and the resistance is 1000, what is the current in the resistor 3ms after the current started in the solenoid? ww

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Question

1.) A 200 turn, 25cm long ideal solenoid with current |= 10t
(where ț is time measured in seconds and I is current
measured in amperes) has a diameter of 3cm. The axis of the
solenoid is perpendicular to the plain of the paper (z-axis) and
a single rectangular loop with an inductor and resistor wrap
around the solenoid and is in the plain of the paper (x-y plain).
a. What is the magnitude of the EMF induced in the
rectangular loop?
b. If the inductance is 300mH and the resistance is 100n,
what is the current in the resistor 3ms after the
current started in the solenoid?
ww

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