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At a time the switch is closed in the circuit
At a time the switch is...
Problem 7.10 In the circuit the switch has been closed for a long time before opening...
Problem 7.10 In the circuit the switch has been closed for a long time before opening at t=0. (Figure 1) Part A Find the value of L so that v. (t) equals 0.5v. (0+) when t= 2 ms. Take R = 11 12 Express your answer with the appropriate units. TH TA ? L = 9 H Submit Previous Answers Request Answer * Incorrect; Try Again; 9 attempts remaining Part B Find the percentage of the stored energy that has...
The switch in the circuit has been closed for a long time and is opened at t = 0.
The switch in the circuit has been closed for a long time and is opened at t = 0. a. Calculate the initial value of I b. Calculate the initial energy stored in the inductor. c. What is the time constant of the circuit for t ≥ 0? d. What is the numerical expression for i() for t20? e. What percentage of the initial energy stored has been dissipated in the 4 Ω resistor 5ms after the switch has been opened?
4. The switch in the circuit below has been in the left positiorn for a long...
4. The switch in the circuit below has been in the left positiorn for a long time. Att -0 it moves to the right position and stays there. a. Write the expression for the capacitor voltage v(t) for t 20 r the current through the 40 kΩ resistor, i(t), for t2 0 c. What percentage of the initial energy stored in the capacitor is dissipated by the 40 kS2 resistor? 200 i
The instant the switch is closed. The ideal operational amplifier reaches saturation in 15 ms ....
The instant the switch is closed. The ideal operational amplifier reaches saturation in 15 ms . (Figure 1 energy stored in the capacitor in the circuit is zero at the PartA What is the numerical value of R in kilo-ohms, if C-570 nF? vec Submit Previous Answers Request Answer Figure 1 of 1 Incorrect; Try Again; 3 attempts remaining Return to Assignment Provide Feedback 10 V -10 V 4 V 5.1 kΩ
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...
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....
The switch in the circuit has been closed for a long time before it is opened at t = 0
The switch in the circuit has been closed for a long time before it is opened at t = 0a) io(t) for t ≥ 0+b) vo(t) for t ≥ 0+, where vo is the voltage drop across the 54 Ω resistor.c) The total energy stored in the 0.5 H inductor that is dissipated in the 26 Ω resistor
A Review Part C IP Consider the circuit shown in the figure, which contains a 6.2.V...
A Review Part C IP Consider the circuit shown in the figure, which contains a 6.2.V battery, a 44-mH inductor, and four 60- resistors. (Figure 1) Calculate the energy stored in the inductor one characteristic time interval after the switch is closed. Express your answer using two significant figures. Figure < 1 of 1 > V ADO ? Fo00002 Submit Request Answer w Part D Calculate the energy stored in the inductor long after the switch is closed. Part D...
Problem 7.11 The switch in the circuit shown in (Figure 1) has been in position 1...
Problem 7.11 The switch in the circuit shown in (Figure 1) has been in position 1 for a long time. At t = 0, the switch moves instantaneously to position 2. Part A Find the Express R=1 Submit X Incor Figure < 1 of 1 > Provide Feedback Part A Find the value of R so that 34% of the initial energy stored in the 30 mH inductor is dissipated in R in 24js. Express your answer to three significant...
A 9.6-V battery is connected in series with a 37-nH inductor, a 150-22 resistor, and an...
A 9.6-V battery is connected in series with a 37-nH inductor, a 150-22 resistor, and an open switch. Part A What is the current in the circuit 0.140 ms after the switch is closed? Express your answer using two significant figures. VALO ? I= mA Submit Request Answer Part B How much energy is stored in the inductor at this time? Express your answer using two significant figures. IVAL ? U = UJ Submit Request Answer
Problem 7.10 In the circuit the switch has been closed for a long time before opening at t=0. (Figure 1) Part A Find the value of L so that v. (t) equals 0.5v. (0+) when t= 2 ms. Take R = 11 12 Express your answer with the appropriate units. TH TA ? L = 9 H Submit Previous Answers Request Answer * Incorrect; Try Again; 9 attempts remaining Part B Find the percentage of the stored energy that has...
4. The switch in the circuit below has been in the left positiorn for a long time. Att -0 it moves to the right position and stays there. a. Write the expression for the capacitor voltage v(t) for t 20 r the current through the 40 kΩ resistor, i(t), for t2 0 c. What percentage of the initial energy stored in the capacitor is dissipated by the 40 kS2 resistor? 200 i
The instant the switch is closed. The ideal operational amplifier reaches saturation in 15 ms . (Figure 1 energy stored in the capacitor in the circuit is zero at the PartA What is the numerical value of R in kilo-ohms, if C-570 nF? vec Submit Previous Answers Request Answer Figure 1 of 1 Incorrect; Try Again; 3 attempts remaining Return to Assignment Provide Feedback 10 V -10 V 4 V 5.1 kΩ
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....
A Review Part C IP Consider the circuit shown in the figure, which contains a 6.2.V battery, a 44-mH inductor, and four 60- resistors. (Figure 1) Calculate the energy stored in the inductor one characteristic time interval after the switch is closed. Express your answer using two significant figures. Figure < 1 of 1 > V ADO ? Fo00002 Submit Request Answer w Part D Calculate the energy stored in the inductor long after the switch is closed. Part D...
Problem 7.11 The switch in the circuit shown in (Figure 1) has been in position 1 for a long time. At t = 0, the switch moves instantaneously to position 2. Part A Find the Express R=1 Submit X Incor Figure < 1 of 1 > Provide Feedback Part A Find the value of R so that 34% of the initial energy stored in the 30 mH inductor is dissipated in R in 24js. Express your answer to three significant...
A 9.6-V battery is connected in series with a 37-nH inductor, a 150-22 resistor, and an open switch. Part A What is the current in the circuit 0.140 ms after the switch is closed? Express your answer using two significant figures. VALO ? I= mA Submit Request Answer Part B How much energy is stored in the inductor at this time? Express your answer using two significant figures. IVAL ? U = UJ Submit Request Answer
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