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Problem 4. In this circuit, the initial voltage is 0 V for both 1 uF and...
Problem 1. (50 points) In the circuit, the initial currents in inductors L1 and L2 have...
Problem 1. (50 points) In the circuit, the initial currents in inductors L1 and L2 have been established by sources not shown. The switch is opened at t = 0. a) Find 11, 12, and is for t 2 0. b) Calculate the initial energy stored in the parallel inductors. c) Determine how much energy is stored in the inductors as t o 412 M 1 = 0) 8a13;" 4a13; 34, (5 H) 3L, (20 H) (1) 4022 3151 31012...
For the circuit below calculate and sketch waveform of the voltage v(t), both for t <...
For the circuit below calculate and sketch waveform of the voltage v(t), both for t < 0 and t 0, if the switch "S" switches on at time t 0. I = 10MA R1 8 k2, R22 k2, C = 6.25 uF - R2 z (t)
For the circuit below calculate and sketch waveform of the voltage v(t), both for t
9. For the given circuit, if the initial voltage across the capacitor is vc(0*) = 0,...
9. For the given circuit, if the initial voltage across the capacitor is vc(0*) = 0, find an expression for the voltrage across the capacitor as a function of time and graph voltage versus time. R= 100 k2 w v=100 V uc) C = 0.01 uF 10. If a 100-F capacitance is initially charged to 1000V and at t=0, it is connected to a 1-ka resistance, at what time has 50 percent of the initial energy stored in the capacitance...
For the circuit shown, the switch has been open for a long time and it closes...
For the circuit shown, the switch has been open for a long time and it closes a t=0. The initial energy stored in capacitor is 250 . 102 w 3V 05v, 522 1c 20 F Question 6: What is the initial condition of the voltage of the capacitor? (A) 0 V (C) 1V (E) None of the above (B) 5 V (D) 3V (E) Question 7: What is the value of v, at t=0*? (A) -3V (C) 2V (E) None...
4. Problem 13.29 on page 508 in the textbook. This is one of my favorite problems...
4. Problem 13.29 on page 508 in the textbook. This is one of my favorite problems in Chapter 13. Hint: when finding the initial conditions for the capacitors, think about it in terms of charge distribution, i.e. the relationship between charge and voltage in capacitors (C = Q/V). 13.29 The switch in the circuit seen in Fig. P13.29 has been in position a for a long time before moving instanta- neously to position b at t = 0. a) Construct...
Capctr05 20Ω Given: The capacitors have initial voltages as shown in the above circuit. Att-0, the switch is closed. equ e Calculate the final voltage, Vi has reached equilibrium the final voltage, V...
Capctr05 20Ω Given: The capacitors have initial voltages as shown in the above circuit. Att-0, the switch is closed. equ e Calculate the final voltage, Vi has reached equilibrium the final voltage, V across the capacitor, on the right, and the energy dissipated in the resis or ie, wR by the t me the system across the capacitor on the le Solution Submit these values
Capctr05 20Ω Given: The capacitors have initial voltages as shown in the above circuit. Att-0,...
2.5 kΩ 5H 3.0 uF The initial voltage at tO and current i(t)
2.5 kΩ 5H 3.0 uF The initial voltage at t<0, V40)-100 v and current i(0)-0. At t=0 the switch is closed. a. (10 points) Find a differential equation (in time domain) for the voltage across the inductor. (10 points) The following expression is the solution for the differential equation find in part b. Determine all the parameters in the solution α, A, B and ω. b. V()e (A Cos(ot)+ BSin(r)) c. (2 points) Determine the steady state current and the...
C) You are given the circuit below that is attached to an I 8 V battery not shown switch is open ...
C) You are given the circuit below that is attached to an I 8 V battery not shown switch is open and the circuit has been connected to the battery for a long time. initially th (a) What is the voltage difference between points a and b under these circumstances, with (b) What is the charge on each of the capacitors at this time (e.g. the magnitude of the char (c) The switch is now closed and we again wait...
4. (SLO #4) The initial capacitor voltage of the circuit shown is v.(0-) = 3 V....
4. (SLO #4) The initial capacitor voltage of the circuit shown is v.(0-) = 3 V. Determine the voltage v(t) at t = 0.2 s and t = 1.8 s when 1357 A 0 <i<1 11s + im Ô C 0.2 F uc
RC charging circuit Two 0.500-uF capacito 00uF capacitors in series are connected to a 50.0-V battery...
RC charging circuit Two 0.500-uF capacito 00uF capacitors in series are connected to a 50.0-V battery through a 4.00-M12 stor at r=0 (figure below). The capacitors are initially uncharged. Answer questions 12 and 13. Show all correct governing equations and work for credit. 500 OF (5 points) 12. What is the equivalent capacitance of the circuit? A. 0.500 F B. 0.250 AF C. 1.00uF D. 4.00 uF E. depends on the time since the capacitor is charging (5 points) 3....
Problem 1. (50 points) In the circuit, the initial currents in inductors L1 and L2 have been established by sources not shown. The switch is opened at t = 0. a) Find 11, 12, and is for t 2 0. b) Calculate the initial energy stored in the parallel inductors. c) Determine how much energy is stored in the inductors as t o 412 M 1 = 0) 8a13;" 4a13; 34, (5 H) 3L, (20 H) (1) 4022 3151 31012...
For the circuit below calculate and sketch waveform of the voltage v(t), both for t < 0 and t 0, if the switch "S" switches on at time t 0. I = 10MA R1 8 k2, R22 k2, C = 6.25 uF - R2 z (t)
For the circuit below calculate and sketch waveform of the voltage v(t), both for t
9. For the given circuit, if the initial voltage across the capacitor is vc(0*) = 0, find an expression for the voltrage across the capacitor as a function of time and graph voltage versus time. R= 100 k2 w v=100 V uc) C = 0.01 uF 10. If a 100-F capacitance is initially charged to 1000V and at t=0, it is connected to a 1-ka resistance, at what time has 50 percent of the initial energy stored in the capacitance...
For the circuit shown, the switch has been open for a long time and it closes a t=0. The initial energy stored in capacitor is 250 . 102 w 3V 05v, 522 1c 20 F Question 6: What is the initial condition of the voltage of the capacitor? (A) 0 V (C) 1V (E) None of the above (B) 5 V (D) 3V (E) Question 7: What is the value of v, at t=0*? (A) -3V (C) 2V (E) None...
4. Problem 13.29 on page 508 in the textbook. This is one of my favorite problems in Chapter 13. Hint: when finding the initial conditions for the capacitors, think about it in terms of charge distribution, i.e. the relationship between charge and voltage in capacitors (C = Q/V). 13.29 The switch in the circuit seen in Fig. P13.29 has been in position a for a long time before moving instanta- neously to position b at t = 0. a) Construct...
Capctr05 20Ω Given: The capacitors have initial voltages as shown in the above circuit. Att-0, the switch is closed. equ e Calculate the final voltage, Vi has reached equilibrium the final voltage, V across the capacitor, on the right, and the energy dissipated in the resis or ie, wR by the t me the system across the capacitor on the le Solution Submit these values
Capctr05 20Ω Given: The capacitors have initial voltages as shown in the above circuit. Att-0,...
2.5 kΩ 5H 3.0 uF The initial voltage at t<0, V40)-100 v and current i(0)-0. At t=0 the switch is closed. a. (10 points) Find a differential equation (in time domain) for the voltage across the inductor. (10 points) The following expression is the solution for the differential equation find in part b. Determine all the parameters in the solution α, A, B and ω. b. V()e (A Cos(ot)+ BSin(r)) c. (2 points) Determine the steady state current and the...
C) You are given the circuit below that is attached to an I 8 V battery not shown switch is open and the circuit has been connected to the battery for a long time. initially th (a) What is the voltage difference between points a and b under these circumstances, with (b) What is the charge on each of the capacitors at this time (e.g. the magnitude of the char (c) The switch is now closed and we again wait...
4. (SLO #4) The initial capacitor voltage of the circuit shown is v.(0-) = 3 V. Determine the voltage v(t) at t = 0.2 s and t = 1.8 s when 1357 A 0 <i<1 11s + im Ô C 0.2 F uc
RC charging circuit Two 0.500-uF capacito 00uF capacitors in series are connected to a 50.0-V battery through a 4.00-M12 stor at r=0 (figure below). The capacitors are initially uncharged. Answer questions 12 and 13. Show all correct governing equations and work for credit. 500 OF (5 points) 12. What is the equivalent capacitance of the circuit? A. 0.500 F B. 0.250 AF C. 1.00uF D. 4.00 uF E. depends on the time since the capacitor is charging (5 points) 3....
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