A circuit contains an EMF of E = 48 V connected in series with a resistor R = 4 ohms and an inductor of L = 0.1 H. If the current in the circuit is initially i = 0, solve for the current in the circuit at t = 2.9 ms. Express your answer in amperes (A) and round-off to two (2) decimal places.

A circuit contains an EMF of E = 48 V connected in series with a resistor R = 4 ohms and an inductor of L = 0.1 H. If the current in the circuit is initially i = 0, solve for the current in the circuit at t = 2.9 ms. Express your answer in amperes (A) and round-off to two (2) decimal places.

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Question

Solve using solutions to first order differential equations.

A circuit contains an EMF of E = 48 V connected in series with a
resistor R = 4 ohms and an inductor of L = 0.1 H. If the current in
the circuit is initially i = 0, solve for the current in the circuit at t =
2.9 ms. Express your answer in amperes (A) and round-off to two (2)
decimal places.

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