(k) For sinusoidal function over one period, a root-mean-square value is the half of peak value: For v(t) = Vm sin(wt + 0), Urms = Vm (1) (m) - For a phasor notation, v = V20°, V is the rms value of waveform. The total impedance will be frequency dependent. (n) For parallel ac networks, the total impedance is the sum of reciprocal of impedance of each components: Zeq = ½ + ½ + ··· + (o) The ideal voltage source can be converted into the current source. -

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Choose [T]rue or [F]alse for the following statements

k) F

l) T

m) T

n) T

o) T

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(k) For sinusoidal function over one period, a root-mean-square value is the half of
peak value: For v(t) = Vm sin(wt + 0), Urms = Vm
(1)
(m)
-
For a phasor notation, v = V20°, V is the rms value of waveform.
The total impedance will be frequency dependent.
(n) For parallel ac networks, the total impedance is the sum of reciprocal of
impedance of each components: Zeq = ½ + ½ + ··· +
(o) The ideal voltage source can be converted into the current source.
-
Transcribed Image Text:(k) For sinusoidal function over one period, a root-mean-square value is the half of peak value: For v(t) = Vm sin(wt + 0), Urms = Vm (1) (m) - For a phasor notation, v = V20°, V is the rms value of waveform. The total impedance will be frequency dependent. (n) For parallel ac networks, the total impedance is the sum of reciprocal of impedance of each components: Zeq = ½ + ½ + ··· + (o) The ideal voltage source can be converted into the current source. -
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