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In an RL series circuit, an inductor of 4.74 H and a resistor of 9.33 Ω are connected to a 26.4 V battery. The switch of the circuit is initially open. Next close the switch and…

In an RL series circuit, an inductor of 4.74 H and a resistor of 9.33 Ω are connected to a 26.4 V battery. The switch of the circuit is initially open. Next close the switch and…
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In an RL series circuit, an inductor of 4.74 H and a resistor of 9.33 Ω are connected to a 26.4 V battery. The switch of the circuit is initially open. Next close the switch and wait for a long time. Eventually the current reaches its equilibrium value. At this time, what is the corresponding energy stored in the inductor? Answer in units of J.

asked
User HoverHell
by
8.2k points

1 Answer

5 votes

Answer:

The energy is
U =  18.98 \  J

Step-by-step explanation:

From the question we are told that

The inductor is
L  =  4.74 \ H

The resistance of the resistor is
R =  9.33 \  \Omega

The voltage of the battery is
V =  26.4 \  V

Generally the current flowing in the circuit is mathematically represented as


I =  (V)/(R)

=>
I =  (26.4)/(9.33 )

=>
I =  2.83 \ A

Generally the corresponding energy stored in the circuit is


U =  (1)/(2) * L  *  I^2


U =  (1)/(2) *  4.74  *  2.83 ^2


U =  18.98 \  J

answered
User Tonytony
by
8.5k points
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