Find the Ic(s) equation in the laplace domain of the current flowing through the capacitance in the circuit given in the figure below. Then substitute s=K for s in this equation to get a number called M. Then get the lc(t) equation, which is the inverse laplace value of the Ic(s) equation. Substitute t=Q for t in the Ic(t) equation to obtain a number called N. In which option is the number closest to the M*N value given? Take the initial conditions of the elements in the circuit Vc(0)=A volts, IL(0)=B amps. E L R1 R2 Ic Şekil below are the values E=50 Volt RI=13 ohm R2=24 ohm 4.047 C=1 farad 010011 31997 L=1 henry 2.115 A= - 12 Volt 5.481 O 16-19 3.884 B=16 Amper 1953197 Q=4 saniye K=2 E 6.302
Find the Ic(s) equation in the laplace domain of the current flowing through the capacitance in the circuit given in the figure below. Then substitute s=K for s in this equation to get a number called M. Then get the lc(t) equation, which is the inverse laplace value of the Ic(s) equation. Substitute t=Q for t in the Ic(t) equation to obtain a number called N. In which option is the number closest to the M*N value given? Take the initial conditions of the elements in the circuit Vc(0)=A volts, IL(0)=B amps. E L R1 R2 Ic Şekil below are the values E=50 Volt RI=13 ohm R2=24 ohm 4.047 C=1 farad 010011 31997 L=1 henry 2.115 A= - 12 Volt 5.481 O 16-19 3.884 B=16 Amper 1953197 Q=4 saniye K=2 E 6.302
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Question
B6
![Find the Ic(s) equation in the laplace domain of the current flowing through the capacitance in the circuit
given in the figure below. Then substitute s=K for s in this equation to get a number called M. Then get
the Ic(t) equation, which is the inverse laplace value of the Ic(s) equation. Substitute t=Q for t in the Ic(t)
equation to obtain a number called N. In which option is the number closest to the M*N value given?
Take the initial conditions of the elements in the circuit Vc(0)=A volts, IL(0)=B amps.
2001
2001
E
L
2001
R1
Ic(t)
R2
2001
below are the values
Şekil
E=50 Volt
2001
R1=13 ohm
R2=24 ohm
01001119531
B
C=1 farad
01997
L=1 henry
116
A= - 12 Volt
4.047
200
2.115
O 16- 19e
3.884
B=16 Amper
6-19531997
Q=4 saniye
K=2
2001
6.302](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F01be6dab-c5f4-4468-a4a1-9811574e9eb6%2F6d184ca1-a2f0-4b78-bcab-2cdb8e5744a0%2Fkj94bqm_processed.png&w=3840&q=75)
Transcribed Image Text:Find the Ic(s) equation in the laplace domain of the current flowing through the capacitance in the circuit
given in the figure below. Then substitute s=K for s in this equation to get a number called M. Then get
the Ic(t) equation, which is the inverse laplace value of the Ic(s) equation. Substitute t=Q for t in the Ic(t)
equation to obtain a number called N. In which option is the number closest to the M*N value given?
Take the initial conditions of the elements in the circuit Vc(0)=A volts, IL(0)=B amps.
2001
2001
E
L
2001
R1
Ic(t)
R2
2001
below are the values
Şekil
E=50 Volt
2001
R1=13 ohm
R2=24 ohm
01001119531
B
C=1 farad
01997
L=1 henry
116
A= - 12 Volt
4.047
200
2.115
O 16- 19e
3.884
B=16 Amper
6-19531997
Q=4 saniye
K=2
2001
6.302
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