V1+R2wwS1MR1C3HEC2HEC1Given the circuit shown above with component values R1 = 100 kN, R2 = 10 kN, C1 = 100nF,C2 = 220nF and C3 = 330nF. V1 = 5 V (DC).Using this circuit, please complete;a) Assume initially all capacitors are empty (no charge), if we close the switch S1 at time t== 0 sec, how long before the circuit reaches steady state (all capacitors charged at leastto 99%)?b) Draw the voltage over resistor R1 over time based on theory during the charge cycle ofthe capacitors (see (a), and label all axes and put in any relevant points on the figure).c) Assume initially all capacitors are fully charged (switch S1 has been closed for long time),if you release the switch S1 at time t = 0 sec, how long before the circuit reaches steadystate (all capacitors discharged to below 2%)?d) Draw the voltage over resistor R1 over time based on theory during the discharge cycleof the capacitors (see (c), and label all axes and put in any relevant points on the figure).

Given Data:An RC transient circuit with,DC voltage source To Find:The time taken by the capacitors…

Answered: V1 + R2 S1 www R1 C3 C2 C1 Given the…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Question 2: A) In the circuit shown in Figure 3, an uncharged capacitor with capacitance C and a resistor with resistance R are in series with a battery of emf E. E R swing C Figure 3. (i) After the switch has been closed for a very long time what is the final charge on the capacitor and what is the total energy stored in it? Solve in terms of E and C. (ii) When the power dissipated by the resistor is equal to ²/(25R), what is the energy stored in the capacitor? Solve in terms of E and C. (iii) Compute the time after the switch is closed when the charge on the capacitor is 4/9 of its final charge. Express your answers using E, C, and R, as appropriate.
a) An AC bridge circuit is constructed for measurement laboratory as shown in Figure Q3 (a). Its function is to measure the unknown value of capacitance during the null condition from the galvanometer. A R2 Detector Figure Q3(a) With reference to Figure Q3(a), answer the following questions: (i) Starting from equation (1), derive in detail the equations for resistance Rx and capacitance Cx, respectively as in equations (2) and (3). Z,Zx = Z,Z3 (1) Cx and Rx: R2C1 Rx C3 (2) R1 Сх (3) CS Scanned with CamScannef
Q2(b) The switch has been closed for a long time as shown in Figure Q2(b). At t- Os, the switch is opened. (1 Determine the circuit for the initial voltage V, across the capacitor. (i) Determine the mathematical expression for the voltage across the capacitor, Vt) when the switch opened at t20. (ii) Determine the initial energy stored in the capacitor. 40 102 30V 0.4F Figure Q2(b)
Calculate the equivalent inductance of the circuit in Figure Q3(b). Assume allinductors are 20 mH.
Q1 (a) For the circuit in Figure Q1(a), the total charge, Q. is 0.0018 C. (i) Find the value of capacitance, C2 (ii) Calculate the voltage, Vị across capacitor Cj. (iii) Determine the charge, Q4 stored in capacitor C4 C1 Qt +V- 40µF C3 CA 90 V C2 10F 10uF Figure Q1(a)
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For the circuit schematic below assuming an ideal switch, preform transient analysis to predict the voltage across resistor, R1. The inductor and capacitor will have zero as initial condition Element Circuit 1 Voltage Source V1 15 V Resistor R1 100 Q Inductor L1 1 mH Capacitor C1 5 µF C1 1 U1 L1 V1 R1 2.
A series circuit contains a resistor and a capacitor as shown in Figure 1. Suppose the capacitor in the circuit initially has zero charge and that there is no initial current. When the switch is at position B, the 10 Volt power supply energized the capacitor through the 250 № resistor, until fully charged, thus producing an output voltage E. At time t=2 seconds, the switch is thrown from position B to A, held there for 1 second, then switch back to B. (c) 10 V (d) 250 92 B Figure 1 10.³F (a) Write the differential equation for the charge q(t) of the circuit. (b) Given the forcing function is zero until t = 2, then has value 10 volts until t = 3, then is zero again, express E(t) in terms of unit step function and sketch the function E(t). Egut Find the charge on the capacitor using part (a) and (b). Use the Laplace transform method. What is the output voltage E(t) on the capacitor?
A resistor of resistance 20 ohms is in series with an inductor of inductance 2H. At t = 0, it is suddenly connected to a dc source voltage of 50V. Determine the current in the circuit at any time t. Determine the current and the voltages across each element at t = 15ms.
A steady current of 3.5 A is flowing through an inductor with 70 volts across it, Find (a) Inductance of the coll if the current falls to zero in 160 msec, (b) Energy stored in the inductor, (c) Number of turns in the inductor for a flux of 50 mWb. Use Thevenin's theorem to simi
Consider the following figure. G₁ C₂ C₁₂ a C₁ Need Help? Read It C₂ C₂₂ •b (a) Find the equivalent capacitance between points a and b for the group of capacitors connected as shown in the figure above. Take C₁ = 2.00 μF, C₂ = 12.0 μF, and C3 = 1.00 μF. UF (b) What charge is stored on C3 if the potential difference between points a and b is 60.0 V? μC Watch It
a) Write the expression for the voltage vC after the switch is closed b) Write the expression for the current iC after the switch is closed. Plot the results of parts (a) and (b).

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