la. The current versus time graph of a de circuit containing an inductor is shown in the figure below. Explain briefly which of three regions of the graphs shows the inductive property and results back-emf in the inductor. a b C

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la. The current versus time graph of a de circuit containing an inductor is shown in the figure
below. Explain briefly which of three regions of the graphs shows the inductive property and
results back-emf in the inductor.
a
a
www.b
R
(A2.1=STOJ
b
t
1b. A sinusoidal voltage V(t) =170 sin (1884 t) is applied to a series RLC circuit with L = 100
mH, C= 125 µF and R=200 £2.
broor
m
L
C
C
dla
(a) State the phase relation between Vrms and Irms in each component of the circuits. Draw a
phasor without values to support your statements.
(b) Calculate the impedance and the rms current of the circuit?
(c) Find power factor, phase angle and average power at resonance.
Transcribed Image Text:la. The current versus time graph of a de circuit containing an inductor is shown in the figure below. Explain briefly which of three regions of the graphs shows the inductive property and results back-emf in the inductor. a a www.b R (A2.1=STOJ b t 1b. A sinusoidal voltage V(t) =170 sin (1884 t) is applied to a series RLC circuit with L = 100 mH, C= 125 µF and R=200 £2. broor m L C C dla (a) State the phase relation between Vrms and Irms in each component of the circuits. Draw a phasor without values to support your statements. (b) Calculate the impedance and the rms current of the circuit? (c) Find power factor, phase angle and average power at resonance.
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