Use the following values for the components: Constants 11-420° [A] 12-6290° [A] w=2000 [rad/s] R1-4 [12] R2 = 6 [S2] Randomized L-0,6 [mH] C=95 [μF] Use Nodal Analysis to find the rms voltage across the resistor R1, answer in [V] with one decimal. Skriv in ditt svar... 1 poäng Now use the following values for the components: Constants 11=420° [A] 12=6 /90° [A] w-2000 [rad/s] R1 = 4 [02] R2 = 6 [S2] L=0,8 [mH] C-80 [μF] Use Nodal Analysis to find the phase of the voltage across R1. Answer degrees [°] with one decimal.
Use the following values for the components: Constants 11-420° [A] 12-6290° [A] w=2000 [rad/s] R1-4 [12] R2 = 6 [S2] Randomized L-0,6 [mH] C=95 [μF] Use Nodal Analysis to find the rms voltage across the resistor R1, answer in [V] with one decimal. Skriv in ditt svar... 1 poäng Now use the following values for the components: Constants 11=420° [A] 12=6 /90° [A] w-2000 [rad/s] R1 = 4 [02] R2 = 6 [S2] L=0,8 [mH] C-80 [μF] Use Nodal Analysis to find the phase of the voltage across R1. Answer degrees [°] with one decimal.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Hi I am having some trouble understanding this problem. Could you please explain to me the solution as best to your abilities! Thank you very much.
![TASK 1 - Nodal analysis
The circuit in Figure 1 has the following variables:
Symbol
Unit
[A]
Parameter
Current source 1
given as phasor
Current source 2
given as phasor
Frequency
Resistor 1
Resistor 2
Inductor
Capacitor
I1
11
12
W
R1
R2
L
C
R1
L
R2
[A]
[rad/s]
[S2]
[Ω]
[mH]
[μF]
Figure 1
C
12
4
Calculate by hand (a)-(b)
Hint: Look at the solution for Example 18.18 on page 809-811 in the course literature.
1
1 poäng
Use the following values for the components:
Constants
11-420° [A]
12=6290° [A]
w=2000 [rad/s]
R1 = 4 [S2]
R2=6 [S2]
Randomized
L-0,6 [mH]
C-95 [μF]
Use Nodal Analysis to find the rms voltage across the resistor R1, answer in [V]
with one decimal.
Skriv in ditt svar...
2 1 poäng
Now use the following values for the components:
Constants
11-420° [A]
12-6/90° [A]
w-2000 [rad/s]
R1 = 4 [S2]
R2=6 [S2]
L = 0,8 [mH]
C-80 [μF]
DO
Use Nodal Analysis to find the phase of the voltage across R1. Answer degrees [°]
with one decimal.
Skriv in ditt svar...](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1c4e6eb6-cb26-4109-9e54-368888a7a408%2Fb626fa9a-a382-45ef-acf9-4d329c5b913b%2Fdve7azq_processed.png&w=3840&q=75)
Transcribed Image Text:TASK 1 - Nodal analysis
The circuit in Figure 1 has the following variables:
Symbol
Unit
[A]
Parameter
Current source 1
given as phasor
Current source 2
given as phasor
Frequency
Resistor 1
Resistor 2
Inductor
Capacitor
I1
11
12
W
R1
R2
L
C
R1
L
R2
[A]
[rad/s]
[S2]
[Ω]
[mH]
[μF]
Figure 1
C
12
4
Calculate by hand (a)-(b)
Hint: Look at the solution for Example 18.18 on page 809-811 in the course literature.
1
1 poäng
Use the following values for the components:
Constants
11-420° [A]
12=6290° [A]
w=2000 [rad/s]
R1 = 4 [S2]
R2=6 [S2]
Randomized
L-0,6 [mH]
C-95 [μF]
Use Nodal Analysis to find the rms voltage across the resistor R1, answer in [V]
with one decimal.
Skriv in ditt svar...
2 1 poäng
Now use the following values for the components:
Constants
11-420° [A]
12-6/90° [A]
w-2000 [rad/s]
R1 = 4 [S2]
R2=6 [S2]
L = 0,8 [mH]
C-80 [μF]
DO
Use Nodal Analysis to find the phase of the voltage across R1. Answer degrees [°]
with one decimal.
Skriv in ditt svar...
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