In this quiz, we will solve a circuit using Thevenin's Theorem step by step. First, take a look at the circuit: 11 Ω m 10 ww ZR3 ZL ZR1 ww 1 Ω Is 2/0° A ZR21N ↑ Ω -j10 Zc 10 The goal is to find Io. To use Thevenin's Theorem, we first identify the load. Since we are looking for the current in R2, R2 is the load. Then, to determine VTH, we replace R2 with an open circuit, so the circuit becomes:
In this quiz, we will solve a circuit using Thevenin's Theorem step by step. First, take a look at the circuit: 11 Ω m 10 ww ZR3 ZL ZR1 ww 1 Ω Is 2/0° A ZR21N ↑ Ω -j10 Zc 10 The goal is to find Io. To use Thevenin's Theorem, we first identify the load. Since we are looking for the current in R2, R2 is the load. Then, to determine VTH, we replace R2 with an open circuit, so the circuit becomes:
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![In this quiz, we will solve a circuit using Thevenin's Theorem step by step.
First, take a look at the circuit:
j10
ZL
10
ww
ZR3
ZR1
1 Ω
Is 12/0° A ZR2 10
Ω
-j10
Zc
10
The goal is to find Io.
To use Thevenin's Theorem, we first identify the load. Since we are looking for the current in
R2, R2 is the load.
Then, to determine VгH, we replace R2 with an open circuit, so the circuit becomes:
j10
ZL
1 Ω
ww
ZR3
-j10
ZR1 10
1Ω
Is 2/0° A
+
VAB
Zc](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F12c62ea9-2423-4a35-a6cd-74646c6bbd41%2F1b08bcac-7ca4-4999-beb0-30106a31a3a3%2Ftqx7czu_processed.jpeg&w=3840&q=75)
Transcribed Image Text:In this quiz, we will solve a circuit using Thevenin's Theorem step by step.
First, take a look at the circuit:
j10
ZL
10
ww
ZR3
ZR1
1 Ω
Is 12/0° A ZR2 10
Ω
-j10
Zc
10
The goal is to find Io.
To use Thevenin's Theorem, we first identify the load. Since we are looking for the current in
R2, R2 is the load.
Then, to determine VгH, we replace R2 with an open circuit, so the circuit becomes:
j10
ZL
1 Ω
ww
ZR3
-j10
ZR1 10
1Ω
Is 2/0° A
+
VAB
Zc
![ZL
A
ZRI 10
Is ①2/0° A
+
Vab
B
ZR3
-j10
Zc
Now VTH is the voltage between point A and B. What is the value of VAB?
Note that, NO currents between A and B, since these two points are disconnected.
Iz
This is also point A
j10
1 Ω
m
ZL
ww
ZR3
Is
A
11
-j10
+
ZR1
10
Is
2/0° A
VAB
Zc
B
O 2V
O3V
4V
O5V](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F12c62ea9-2423-4a35-a6cd-74646c6bbd41%2F1b08bcac-7ca4-4999-beb0-30106a31a3a3%2Fgciy33_processed.jpeg&w=3840&q=75)
Transcribed Image Text:ZL
A
ZRI 10
Is ①2/0° A
+
Vab
B
ZR3
-j10
Zc
Now VTH is the voltage between point A and B. What is the value of VAB?
Note that, NO currents between A and B, since these two points are disconnected.
Iz
This is also point A
j10
1 Ω
m
ZL
ww
ZR3
Is
A
11
-j10
+
ZR1
10
Is
2/0° A
VAB
Zc
B
O 2V
O3V
4V
O5V
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