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(a) What is the total impedance of an inductor with a reactance 150 Q when connected to the following? 1. In series with a resistance of 100n 2. In parallel with a resistance of 200 Q. 3. Do the values of the impedances change when the inductor is replaced by a capacitor having the same reactance value?

(a) What is the total impedance of an inductor with a reactance 150 Q when connected to the following? 1. In series with a resistance of 100n 2. In parallel with a resistance of 200 Q. 3. Do the values of the impedances change when the inductor is replaced by a capacitor having the same reactance value?

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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(a) What is the total impedance of an inductor with a reactance 150 Q when connected to the following? 1. In series with a resistance of 1000 2. In parallel with a resistance of 200 0. 3. Do the values of the impedances change when the inductor is replaced by a capacitor having the same reactance value? (40%) (b) Find the power absorbed by the two resistance R1 and R2 for the circuit shown in Figure 4. Assume R1 = 100 Q and R2 = 200 Q. Also, compute the value of resistor 3? (60%) R1 R2 8 V 10 V V3 = 4 V R3 Figure 4
Transcribed Image Text:(a) What is the total impedance of an inductor with a reactance 150 Q when connected to the following? 1. In series with a resistance of 1000 2. In parallel with a resistance of 200 0. 3. Do the values of the impedances change when the inductor is replaced by a capacitor having the same reactance value? (40%) (b) Find the power absorbed by the two resistance R1 and R2 for the circuit shown in Figure 4. Assume R1 = 100 Q and R2 = 200 Q. Also, compute the value of resistor 3? (60%) R1 R2 8 V 10 V V3 = 4 V R3 Figure 4
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