202 XZ0° A ΖΩ -j20 Z YZ0° V estion 1) If X=20 and Y=36 in the circuit, calculate the "Z" impedance required for maximum average power transfer and the power drawn by the load. 1)In the circuit X=20 and Y=36, calculate the "Z" impedance and the power absorbed by the load for the maximum average power transfer in the circuit. a. Z=0.8+1.6j, Vth=-368.00 +j16.00, P=2120.00 W b. Z=0.8+1.6j, Vth=-36.80 +j1.60, P=212.00 W c. Z=0.8-1.6j, Vth=-36.80 +j1.60, P=212.00 W O d. Z=0.8+1.6j, Vth=-460.00 + j20.00, P=1060.00 W e. Z=0.8-1.6j, Vth=-644.00 + j28.00, P=1484.00 W f. Z=0.8+1.6j, Vth=-276.00 +j12.00, P=636.00 W g. Z=0.8-1.6j, Vth=-736.00 +j32.00, P=1696.00 W h. Z=0.8-1.6j, Vth=920.00 + j-1.60, P=4240.00 W
202 XZ0° A ΖΩ -j20 Z YZ0° V estion 1) If X=20 and Y=36 in the circuit, calculate the "Z" impedance required for maximum average power transfer and the power drawn by the load. 1)In the circuit X=20 and Y=36, calculate the "Z" impedance and the power absorbed by the load for the maximum average power transfer in the circuit. a. Z=0.8+1.6j, Vth=-368.00 +j16.00, P=2120.00 W b. Z=0.8+1.6j, Vth=-36.80 +j1.60, P=212.00 W c. Z=0.8-1.6j, Vth=-36.80 +j1.60, P=212.00 W O d. Z=0.8+1.6j, Vth=-460.00 + j20.00, P=1060.00 W e. Z=0.8-1.6j, Vth=-644.00 + j28.00, P=1484.00 W f. Z=0.8+1.6j, Vth=-276.00 +j12.00, P=636.00 W g. Z=0.8-1.6j, Vth=-736.00 +j32.00, P=1696.00 W h. Z=0.8-1.6j, Vth=920.00 + j-1.60, P=4240.00 W
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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circuit theory
![202
XZ0° A
ΖΩ
-j20
Z
YZ0° V
estion 1) If X=20 and Y=36 in the circuit, calculate the "Z" impedance required for maximum average power transfer and the power drawn by the load.
1)In the circuit X=20 and Y=36, calculate the "Z" impedance and the power absorbed by the load for the maximum average power transfer in the circuit.
a. Z=0.8+1.6j, Vth=-368.00 +j16.00, P=2120.00 W
b. Z=0.8+1.6j, Vth=-36.80 +j1.60, P=212.00 W
c. Z=0.8-1.6j, Vth=-36.80 +j1.60, P=212.00 W
O d. Z=0.8+1.6j, Vth=-460.00 + j20.00, P=1060.00 W
e. Z=0.8-1.6j, Vth=-644.00 + j28.00, P=1484.00 W
f. Z=0.8+1.6j, Vth=-276.00 +j12.00, P=636.00 W
g. Z=0.8-1.6j, Vth=-736.00 +j32.00, P=1696.00 W
h. Z=0.8-1.6j, Vth=920.00 + j-1.60, P=4240.00 W](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F60a0b29c-d3bc-4087-a473-cab6174129c0%2Fadd8485e-5b96-4b79-9b95-378f3361ae0c%2Fay5cwp_processed.png&w=3840&q=75)
Transcribed Image Text:202
XZ0° A
ΖΩ
-j20
Z
YZ0° V
estion 1) If X=20 and Y=36 in the circuit, calculate the "Z" impedance required for maximum average power transfer and the power drawn by the load.
1)In the circuit X=20 and Y=36, calculate the "Z" impedance and the power absorbed by the load for the maximum average power transfer in the circuit.
a. Z=0.8+1.6j, Vth=-368.00 +j16.00, P=2120.00 W
b. Z=0.8+1.6j, Vth=-36.80 +j1.60, P=212.00 W
c. Z=0.8-1.6j, Vth=-36.80 +j1.60, P=212.00 W
O d. Z=0.8+1.6j, Vth=-460.00 + j20.00, P=1060.00 W
e. Z=0.8-1.6j, Vth=-644.00 + j28.00, P=1484.00 W
f. Z=0.8+1.6j, Vth=-276.00 +j12.00, P=636.00 W
g. Z=0.8-1.6j, Vth=-736.00 +j32.00, P=1696.00 W
h. Z=0.8-1.6j, Vth=920.00 + j-1.60, P=4240.00 W
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