At t=0 the switch in the figure is closed. Both capacitors areuncharged when the switch...
At t=0 the switch in the figure is closed. Both capacitors are uncharged when the switch is closed.
a) Find an expression for the energy stored in each capacitor when the circuit reaches equilibrium. Your answers can include Ɛ, R1, R2, C2, R3, and C3.
b) Find an expression for the rate at which energy is drained
from the battery at t=0. Your answer can include Ɛ, R1, R2, C2, R3,
and C3. 
c) For this part assume that R3=R2 and C3=C2. Find an expression
for the effective time-constant of this circuit. Your answer can
include Ɛ, R1, R2, and C2.
Homework Answers
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At t=0 the switch in the figure is closed. Both capacitors areuncharged when the switch...
The switch is closed at time t = 0. The battery, shown in the figure has...
The switch is closed at time t = 0. The battery, shown in the figure has a voltage of 3.21 Volts. The capacitor is initially uncharged. For the circuit below, with Resistance 8.95 Ohms and Capacitance 5.65 Farads, what is the energy in Joule stored in the capacitor at time t= 4.09 seconds?
The circuit in the figure below contains two resistors, R1-1.8 kΩ and R2 2.8 k. and...
The circuit in the figure below contains two resistors, R1-1.8 kΩ and R2 2.8 k. and two capacitors, C1-1.7 μF and C3 = 2.5 μF, connected to a battery with emf ε-105 v. If there are no charges on the capacitors before switch s is closed, determine the charges q1 and q2 on capacitors C1 and C2, respectively, as functions of time, after the switch is closed. Hint: First reconstruct the circuit so that it becomes a simple RC circuit...
SW1 t=0 6uF Given the capacitor circuit, assume SW1 has been closed and SW2 open for...
SW1 t=0 6uF Given the capacitor circuit, assume SW1 has been closed and SW2 open for a long time. The capacitors C1, C2, C3 are fully charged and C4 is completely uncharged. | 04 4uF C3 3.6uF J C2 - 10 V Auf At t=0, SW1 is opened and sw2 is closed. SW2 For t<0 6. Find the equivalent capacitance between terminals A and B fort<0 7. Find the energy stored in the equivalent capacitor before for t<0 8. Find...
In the circuit below, the switch was open for a long time and then closed at t=0 s.
In the circuit below, the switch was open for a long time and then closed at t=0 s. The values of the emf, resistors, and capacitors are ε = 11.5V, R1 = 2.4 Ω, R2 = 7.4 Ω, R3 = 0.3 Ω, CA = 7.1 μF, CB = 5.0 μF.(a) Immediately after the switch is closed, what is the current
through resistor R1?A long time after the switch was closed, what are the charges
stored on the two capacitors?(b) on...
4) Midterm question Problem 2 (30 points) C=30 uF The air capacitors with C=Cq=3.0 MF, C=2.04F...
4) Midterm question Problem 2 (30 points) C=30 uF The air capacitors with C=Cq=3.0 MF, C=2.04F and C3= 1.0F are connected to a Vo battery as shown. If the charge on C2 is Q2=20.0 C, | ,2015 Foton C1.0 F (a) (15 pts. Find the equivalent capacitance of the circuit. (b) (15 pts.) Find V. 1) A charge Q is placed on a capacitor of capacitance C=C. The capacitor is then, connected to a resistor and another capacitor of capacitance...
The circuit in the figure below shows four capacitors connected to a battery. The switch S...
The circuit in the figure below shows four capacitors connected to a battery. The switch S is initially open, and all capacitors have reached their final charge. The capacitances are ci-6.10 F, C2. 11.00,F, C3.8.20,f, and ca. 3.90pE 00V (a) Find the potential difference across each capacitor and the charge stored in each HC (b) The switch is now closed. What is the new final potential difference across each capacitor and the new charge stored in each? HC IC Q4-...
(1) Consider the RC circuit shown in Figure 1. For t<0 the switch is open, and...
(1) Consider the RC circuit shown in Figure 1. For t<0 the switch is open, and the charge stored on the capacitor is 0. At t-0 the switch is closed, and the voltage source begins charging the capacitor. Let R1-R2-220 Ω , C-0.47 μ F , Vs-5 V. (a) Write the differential equation as an expression for the capacitor voltage fort> 0 (i.e. write the differential equation) and calculate the time constant (b) Calculate the steady-state capacitor voltage R2 R1...
Consider the circuit shown in the diagram below. Before the switch is closed, both capacitors are uncharged.
Consider the circuit shown in the diagram below. Before the switch is closed, both capacitors are uncharged. Immediately after the switch is closed, what is the amount of current supplied by the battery?Assuming the switch remains closed for a long time, which capacitor will be the first to reach 95% of its final charge level? What is the time constant for charging this capacitor?
At a time the switch is closed in the circuit At a time the switch is...
At a time the switch is closed in the circuit
At a time the switch is closed in the circuit, the voltage across the paralleled capacitors is 50V and the voltage on the C3 capacitor is 40V (Figure 1) Take that C1 = 210 nF, C2-760 nF and C3 360 nF. 400 Ω +40 V- 0 Part A What percentage of the initial energy stored in the three capacitors is dissipated in the 24 kS2 resistor? Express your answer using...
Questions 10, 11, Pls help with both! The capacitor is uncharged prior to closing the switch...
Questions 10, 11, Pls help with both!
The capacitor is uncharged prior to closing the switch at t = 0. Assume Vs = 7.8 V, R1 = 9.2 kOhm, R2 = R3 = 3.3 kOhm and C = 47 uF. Find the capacitor current in mA at the instant the switch is closed. R} =C + 1 The capacitor is uncharged prior to closing the switch at t = 0. Assume Vs = 9.4 V, R1 = 10 kOhm, R2...
The switch is closed at time t = 0. The battery, shown in the figure has a voltage of 3.21 Volts. The capacitor is initially uncharged. For the circuit below, with Resistance 8.95 Ohms and Capacitance 5.65 Farads, what is the energy in Joule stored in the capacitor at time t= 4.09 seconds?
The circuit in the figure below contains two resistors, R1-1.8 kΩ and R2 2.8 k. and two capacitors, C1-1.7 μF and C3 = 2.5 μF, connected to a battery with emf ε-105 v. If there are no charges on the capacitors before switch s is closed, determine the charges q1 and q2 on capacitors C1 and C2, respectively, as functions of time, after the switch is closed. Hint: First reconstruct the circuit so that it becomes a simple RC circuit...
SW1 t=0 6uF Given the capacitor circuit, assume SW1 has been closed and SW2 open for a long time. The capacitors C1, C2, C3 are fully charged and C4 is completely uncharged. | 04 4uF C3 3.6uF J C2 - 10 V Auf At t=0, SW1 is opened and sw2 is closed. SW2 For t<0 6. Find the equivalent capacitance between terminals A and B fort<0 7. Find the energy stored in the equivalent capacitor before for t<0 8. Find...
4) Midterm question Problem 2 (30 points) C=30 uF The air capacitors with C=Cq=3.0 MF, C=2.04F and C3= 1.0F are connected to a Vo battery as shown. If the charge on C2 is Q2=20.0 C, | ,2015 Foton C1.0 F (a) (15 pts. Find the equivalent capacitance of the circuit. (b) (15 pts.) Find V. 1) A charge Q is placed on a capacitor of capacitance C=C. The capacitor is then, connected to a resistor and another capacitor of capacitance...
The circuit in the figure below shows four capacitors connected to a battery. The switch S is initially open, and all capacitors have reached their final charge. The capacitances are ci-6.10 F, C2. 11.00,F, C3.8.20,f, and ca. 3.90pE 00V (a) Find the potential difference across each capacitor and the charge stored in each HC (b) The switch is now closed. What is the new final potential difference across each capacitor and the new charge stored in each? HC IC Q4-...
(1) Consider the RC circuit shown in Figure 1. For t<0 the switch is open, and the charge stored on the capacitor is 0. At t-0 the switch is closed, and the voltage source begins charging the capacitor. Let R1-R2-220 Ω , C-0.47 μ F , Vs-5 V. (a) Write the differential equation as an expression for the capacitor voltage fort> 0 (i.e. write the differential equation) and calculate the time constant (b) Calculate the steady-state capacitor voltage R2 R1...
At a time the switch is closed in the circuit
At a time the switch is closed in the circuit, the voltage across the paralleled capacitors is 50V and the voltage on the C3 capacitor is 40V (Figure 1) Take that C1 = 210 nF, C2-760 nF and C3 360 nF. 400 Ω +40 V- 0 Part A What percentage of the initial energy stored in the three capacitors is dissipated in the 24 kS2 resistor? Express your answer using...
Questions 10, 11, Pls help with both!
The capacitor is uncharged prior to closing the switch at t = 0. Assume Vs = 7.8 V, R1 = 9.2 kOhm, R2 = R3 = 3.3 kOhm and C = 47 uF. Find the capacitor current in mA at the instant the switch is closed. R} =C + 1 The capacitor is uncharged prior to closing the switch at t = 0. Assume Vs = 9.4 V, R1 = 10 kOhm, R2...
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