Transcription of 14: Power in AC Circuits
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14: Power in AC Circuits14: Power in AC Circuits Average Power Cosine Wave RMS Power Factor+ Complex Power Power in R, L, C Tellegen s Theorem Power Factor Correction Ideal Transformer Transformer Applications Analysis of Circuits (2017-10213)AC Power : 14 1 / 11 Average Power14: Power in AC Circuits Average Power Cosine Wave RMS Power Factor+ Complex Power Power in R, L, C Tellegen s Theorem Power Factor Correction Ideal Transformer Transformer Applications Analysis of Circuits (2017-10213)AC Power : 14 2 / 11 Average Power14: Power in AC Circuits Average Power Cosine Wave RMS Power Factor+ Complex Power Power in R, L, C Tellegen s Theorem Power Factor Correction Ideal Transformer Transformer Applications Analysis of Circuits (2017-10213)AC Power : 14 2 / 11 Intantaneous Powerdissipated inR:p(t) =v2(t)RAverage Power14: Power in AC Circuits Average Power Cosine Wave RMS Power Factor+ Complex Power Power in R, L, C Tellegen s Theorem Power Factor Correction Ideal Transformer Transformer Applications Analysis of Circuits (2017-10213)AC Power : 14 2 / 11 Intantaneous Powerdissipated inR:p(t) =v2(t)RAverage Power14: Power in AC Circuits Average Power Cosine Wave RMS Power Factor+ Complex Power Power in R, L, C Tellegen s Theorem Power Factor Correction Ideal Transformer Transformer Applications Analysis of C
Cosine Wave RMS 14: Power in AC Circuits •Average Power •Cosine Wave RMS •Power Factor + •Complex Power •Power in R, L, C •Tellegen’s Theorem •Power Factor Correction •Ideal Transformer •Transformer Applications •Summary E1.1 Analysis of Circuits (2017-10213) AC Power: 14 – 3 / 11 Cosine Wave: v(t) = 5cosωt.Amplitude is V = 5V. Squared Voltage: v2(t) = …
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