11) For the circuit of Figure 3, the parameters are: I,=2A, L = 5mH, C = 5 mF, R, = 1092, R₁ = 1.81 2, and R₂ = 0.2 2. After the switch has been in its initial position for a long time, at 1 = 0 it moves instantaneously to the left as shown in Figure 3. What is the initial value of the time derivative of the capacitor voltage in the circuit, dv(0*)/dt? R₁ ell dv(0)-7500 V/s dt dv(0*) dt =0 dv(0*) dt dv(0*) d) -2200 V/s dt e) None of the above 1,200 V/s 1=0 C R₂: Figure 3 R₂ a) v(t)=es (7.5 cos 45t+17 sin 60t) (V) b) v(t)=e-255 (cos60t-17 sin 60t) (V) v(t)=110.4e-18-90.4e-22 (V) d) v(t)=75.2e-22-55.2e-18 (V) e) None of the above ww Is 12) For the circuit of Figure 3, identify the correct general expression for the voltage, v(t), for 120.
11) For the circuit of Figure 3, the parameters are: I,=2A, L = 5mH, C = 5 mF, R, = 1092, R₁ = 1.81 2, and R₂ = 0.2 2. After the switch has been in its initial position for a long time, at 1 = 0 it moves instantaneously to the left as shown in Figure 3. What is the initial value of the time derivative of the capacitor voltage in the circuit, dv(0*)/dt? R₁ ell dv(0)-7500 V/s dt dv(0*) dt =0 dv(0*) dt dv(0*) d) -2200 V/s dt e) None of the above 1,200 V/s 1=0 C R₂: Figure 3 R₂ a) v(t)=es (7.5 cos 45t+17 sin 60t) (V) b) v(t)=e-255 (cos60t-17 sin 60t) (V) v(t)=110.4e-18-90.4e-22 (V) d) v(t)=75.2e-22-55.2e-18 (V) e) None of the above ww Is 12) For the circuit of Figure 3, identify the correct general expression for the voltage, v(t), for 120.
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
![11)
12)
For the circuit of Figure 3, the parameters are: I,=2A, L = 5mH, C = 5 mF, R₂ = 1092,
R₁ = 1.81 2, and R₂ = 0.2 2. After the switch has been in its initial position for a long
time, at 1 = 0 it moves instantaneously to the left as shown in Figure 3. What is the initial
value of the time derivative of the capacitor voltage in the circuit, dv(0*)/dt?
R₁
a)
14.
dv(0*)
dt
ell
dv(0)-7500 V/s
dt
dv(0*)=0
dt
-= 1,200 V/s
dv(0*)
d)
=-2200 V/s
dt
e) None of the above
1=0
Ⓒv(t)=110.4e-18-90.4e-22
d) v(t)=75.2e-221-55.2e-18
e) None of the above
R₂3
Figure 3
a) v(t)=e5¹ (7.5 cos 45t+17 sin 60t) (V)
b) v(t)=e-255t (cos60t-17 sin 60t) (V)
(V)
For the circuit of Figure 3, identify the correct general expression for the voltage, v(t), for
120.
(1)
R₂
Is](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0a5ac3c6-e4ab-423a-91e1-ff33bdae0d07%2Fcc7aebb4-4e64-4a1d-bfa6-73e59a4b7e67%2Fj87z2r_processed.png&w=3840&q=75)
Transcribed Image Text:11)
12)
For the circuit of Figure 3, the parameters are: I,=2A, L = 5mH, C = 5 mF, R₂ = 1092,
R₁ = 1.81 2, and R₂ = 0.2 2. After the switch has been in its initial position for a long
time, at 1 = 0 it moves instantaneously to the left as shown in Figure 3. What is the initial
value of the time derivative of the capacitor voltage in the circuit, dv(0*)/dt?
R₁
a)
14.
dv(0*)
dt
ell
dv(0)-7500 V/s
dt
dv(0*)=0
dt
-= 1,200 V/s
dv(0*)
d)
=-2200 V/s
dt
e) None of the above
1=0
Ⓒv(t)=110.4e-18-90.4e-22
d) v(t)=75.2e-221-55.2e-18
e) None of the above
R₂3
Figure 3
a) v(t)=e5¹ (7.5 cos 45t+17 sin 60t) (V)
b) v(t)=e-255t (cos60t-17 sin 60t) (V)
(V)
For the circuit of Figure 3, identify the correct general expression for the voltage, v(t), for
120.
(1)
R₂
Is
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