3. The load, ZL, connected in the circuit shown below is 10 Q resistor in parallel with an inductor whose reactance is j6 Q. The voltage supplied is V - 1100 Vrms. a. Case I- Find the complex power to calculate the real and reactive power of the load. b. Case II- Repeat the calculations in part (a) when the inductor is removed. C. Use the complex power to calculate the power delivered by the source in each case (parts (a) and (b)). Bonus (optional): compare the real power transfer between the source and the load for the two cases. Note: use the calculations from parts a, b, and c. Isrms Rs=452 m V srms = 110 Co 10 ~ V R₁jx
3. The load, ZL, connected in the circuit shown below is 10 Q resistor in parallel with an inductor whose reactance is j6 Q. The voltage supplied is V - 1100 Vrms. a. Case I- Find the complex power to calculate the real and reactive power of the load. b. Case II- Repeat the calculations in part (a) when the inductor is removed. C. Use the complex power to calculate the power delivered by the source in each case (parts (a) and (b)). Bonus (optional): compare the real power transfer between the source and the load for the two cases. Note: use the calculations from parts a, b, and c. Isrms Rs=452 m V srms = 110 Co 10 ~ V R₁jx
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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Solve bonus part also...will upvote for sure...thanks
Transcribed Image Text:3. The load, ZL, connected in the circuit shown below is 10 Q resistor in parallel with an inductor whose
reactance is j6 Q. The voltage supplied is V - 1100 Vrms.
a. Case I- Find the complex power to calculate the real and reactive power of the load.
b. Case II- Repeat the calculations in part (a) when the inductor is removed.
C. Use the complex power to calculate the power delivered by the source in each case (parts (a)
and (b)).
Bonus (optional): compare the real power transfer between the source and the load for the two
cases. Note: use the calculations from parts a, b, and c.
Isrms Rs=452
m
V srms = 110 Co
10 ~
V
R₁jx
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