Consider the given circuit. C V b cn ~ 2 n Vh bn Rw ww an 12+ Rw www a C B 40 1p Rw ww N Zp A Each load is composed of a 1.5 H inductor in parallel with a 100 μF capacitor and a 1,030 resistor. The resistance is labeled Rw =0 2. Use positive phase sequence with Vab=11520° V at f= 60 Hz. W. Please report your answer, so the magnitude is positive, and all angles are in the range of negative 180 degrees to positive 180 degrees. Determine the rms line current and the total power delivered to the load. (Round the final answers to three decimal places.) The rms line current is A. The total power delivered to the load is

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Consider the given circuit.
C
V
b
cn
~
2
n
Vh bn
Rw
ww
an
12+
Rw
www
a
C
B
40
1p
Rw
ww
N
Zp
A
Each load is composed of a 1.5 H inductor in parallel with a 100 μF capacitor and a 1,030 resistor. The resistance is
labeled Rw =0 . Use positive phase sequence with Vab=11520° V at f= 60 Hz.
W.
Please report your answer, so the magnitude is positive, and all angles are in the range of negative 180 degrees to
positive 180 degrees.
Determine the rms line current and the total power delivered to the load. (Round the final answers to three decimal places.)
The rms line current is
A.
The total power delivered to the load is
Transcribed Image Text:Consider the given circuit. C V b cn ~ 2 n Vh bn Rw ww an 12+ Rw www a C B 40 1p Rw ww N Zp A Each load is composed of a 1.5 H inductor in parallel with a 100 μF capacitor and a 1,030 resistor. The resistance is labeled Rw =0 . Use positive phase sequence with Vab=11520° V at f= 60 Hz. W. Please report your answer, so the magnitude is positive, and all angles are in the range of negative 180 degrees to positive 180 degrees. Determine the rms line current and the total power delivered to the load. (Round the final answers to three decimal places.) The rms line current is A. The total power delivered to the load is
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