The two loads shown in (Figure 1) can be described as follows: Load 1 absorbs an average power of 60 kW and delivers 70 kVAR of reactive power; Load 2 has an impedance of (24+37) S2. The voltage at the terminals of the loads is 2200 √2 cos 120πt V Figure 0,05 Ωj05 Ω ww 0.05 Ω j0.5 Ω m V₁ L₁ < 1 of 1 42 ▼ Part B By how many microseconds is the load voltage out of phase with the source voltage? Express your answer in microseconds to three significant figures. ΑΣΦ| | | vec t = Submit ▾ Part C Request Answer Does the load voltage lead or lag the source voltage? The load voltage lags the source voltage. O The load voltage leads the source voltage. Submit Request Answer B good ? us

The two loads shown in (Figure 1) can be described as follows: Load 1 absorbs an average power of 60 kW and delivers 70 kVAR of reactive power; Load 2 has an impedance of (24+37) S2. The voltage at the terminals of the loads is 2200 √2 cos 120πt V Figure 0,05 Ωj05 Ω ww 0.05 Ω j0.5 Ω m V₁ L₁ < 1 of 1 42 ▼ Part B By how many microseconds is the load voltage out of phase with the source voltage? Express your answer in microseconds to three significant figures. ΑΣΦ| | | vec t = Submit ▾ Part C Request Answer Does the load voltage lead or lag the source voltage? The load voltage lags the source voltage. O The load voltage leads the source voltage. Submit Request Answer B good ? us

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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