Exercise 3: Find iL(t) when t > 0 in the following circuit. Deduct Vc(t).
Exercise 3: Find iL(t) when t > 0 in the following circuit. Deduct Vc(t).
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Exercise 3: Find iL(t) when t > 0 in the following
circuit. Deduct Vc(t).
Exercise 3:...
Find vc(t) for t>0 in the circuit in the accompanying figure iL(t) 4 A 0.05 F+vC(t)...
Find vc(t) for t>0 in the circuit in the accompanying figure iL(t) 4 A 0.05 F+vC(t) 7 H Please round all numbers to 3 significant digits. Click to use Flash
Given the circuit in Figure 8.6, find vc(t) for all t>0. t=0 102 20 V *...
Given the circuit in Figure 8.6, find vc(t) for all t>0. t=0 102 20 V * vc(t) 1/10 F 10H Figure 8.6
I can find iL(0+) and vC(0+), but I cannot find tm and Vcm. The final answer...
I can find iL(0+) and
vC(0+), but I cannot find tm and
Vcm. The final answer is given for Vcm=-4.718 V and tm=1.7018
ms
In the circuit shown below, the switch was open for a very long time and closes at t = 0. Calculate: 1. The initial value of inductor current, IL(0*), 2. The initial value of capacitor voltage, vc(0*), 3. The minimum value of the capacitor voltage, Vcm, 4. The time, tm, when the minimum in p.3 occurs....
Find formulas for the current in and the voltage vc for the circuit described by the...
Find formulas for the current in and the voltage vc for the circuit described by the equation below, assuming R1 = 0.4 ohm, R2 = 3 ohms, C = 0.25 farad, and L = 0.5 henry. The initial current is o amp, and the initial voltage is 12 volts. R2 IL Cafe 1 VC (RC) |_(t) = and vc(t);
Find vc(t) for all t> 0, given the following circuit. 10Ω 100 mF vc(t 25(1- u(t)...
Find vc(t) for all t> 0, given the following circuit. 10Ω 100 mF vc(t 25(1- u(t) V
2. (25 pts) Determine vc(t) for the circuit of the following figure, and its value at...
2. (25 pts) Determine vc(t) for the circuit of the following figure, and its value at t = 2 s. Assume ve(0) = 100 V and ic(0) = 0 A. + vc + 240 F 10H 3100 32 vc(t) = (20pts) v (2 s) = (5pts)
The following circuit consists of linear time invariant components where R1 = 2, R2 = 3,...
The following circuit consists of linear time invariant
components where R1 = 2,
R2 = 3,
C = 0.25F, and L = 1H. Let vs be the input voltage.
(a) Solve the differential equation that describes
vc(t). Hint: First, find the current
going through the parallel branch of R1–C. Then, write
the Kirchoff's Voltage Law for the main loop.
(b) Find vc(t) given that vs(t) = 2.5 V at
t = 0. Assume that vc(0-) = 1V and
iL(0-) =...
3. Use the circuit below to answer the following questions. The switch has been in the...
3. Use the circuit below to answer the following questions. The switch has been in the initial position shown for a long time. At t=0, the switch disconnects the 2 V source from the circuit with R2, L1, and Ci, and connects to Il and Ri. S1 t=0 R2 L1 1000 33mH 1A 31000 2v C1 +1 47uF Fill in the table below. Please remember to include units with your answers. Immediately before 1-0. Immediately after 1-0. Long after 1...
For the circuit shown below, find the equation for Vc(t) for t > 0 Draw the...
For the circuit shown below, find the equation for Vc(t) for t
> 0
Draw the following circuits:
T =0
T = 0+
R_th
1. For the circuit shown in Figure 1 below, find the equation for vc(t) fort>0. Extra Credit: Find the time constant (T) and indicate how long it will take to fully discharge the capacitor voltage. Hint: You have to draw the following circuits at: t=0-, t=0+, RTH too 2 + W 3r - Velt) 24 9A...
Q5. (20 pts] Given i (0)=0 and Vc(0)=0, find the following for the circuit of Fig....
Q5. (20 pts] Given i (0)=0 and Vc(0)=0, find the following for the circuit of Fig. 5 using time domain techniques a) W., alpha, S1, and s2. b) vc(-) = vc(final) = vc(steady-state). c) vc(t) for t20. t=0 / 0.11 1812 | + 0.4uF + V(t) 48V = Fig. 5
Find vc(t) for t>0 in the circuit in the accompanying figure iL(t) 4 A 0.05 F+vC(t) 7 H Please round all numbers to 3 significant digits. Click to use Flash
Given the circuit in Figure 8.6, find vc(t) for all t>0. t=0 102 20 V * vc(t) 1/10 F 10H Figure 8.6
I can find iL(0+) and
vC(0+), but I cannot find tm and
Vcm. The final answer is given for Vcm=-4.718 V and tm=1.7018
ms
In the circuit shown below, the switch was open for a very long time and closes at t = 0. Calculate: 1. The initial value of inductor current, IL(0*), 2. The initial value of capacitor voltage, vc(0*), 3. The minimum value of the capacitor voltage, Vcm, 4. The time, tm, when the minimum in p.3 occurs....
Find formulas for the current in and the voltage vc for the circuit described by the equation below, assuming R1 = 0.4 ohm, R2 = 3 ohms, C = 0.25 farad, and L = 0.5 henry. The initial current is o amp, and the initial voltage is 12 volts. R2 IL Cafe 1 VC (RC) |_(t) = and vc(t);
Find vc(t) for all t> 0, given the following circuit. 10Ω 100 mF vc(t 25(1- u(t) V
2. (25 pts) Determine vc(t) for the circuit of the following figure, and its value at t = 2 s. Assume ve(0) = 100 V and ic(0) = 0 A. + vc + 240 F 10H 3100 32 vc(t) = (20pts) v (2 s) = (5pts)
The following circuit consists of linear time invariant
components where R1 = 2,
R2 = 3,
C = 0.25F, and L = 1H. Let vs be the input voltage.
(a) Solve the differential equation that describes
vc(t). Hint: First, find the current
going through the parallel branch of R1–C. Then, write
the Kirchoff's Voltage Law for the main loop.
(b) Find vc(t) given that vs(t) = 2.5 V at
t = 0. Assume that vc(0-) = 1V and
iL(0-) =...
3. Use the circuit below to answer the following questions. The switch has been in the initial position shown for a long time. At t=0, the switch disconnects the 2 V source from the circuit with R2, L1, and Ci, and connects to Il and Ri. S1 t=0 R2 L1 1000 33mH 1A 31000 2v C1 +1 47uF Fill in the table below. Please remember to include units with your answers. Immediately before 1-0. Immediately after 1-0. Long after 1...
For the circuit shown below, find the equation for Vc(t) for t
> 0
Draw the following circuits:
T =0
T = 0+
R_th
1. For the circuit shown in Figure 1 below, find the equation for vc(t) fort>0. Extra Credit: Find the time constant (T) and indicate how long it will take to fully discharge the capacitor voltage. Hint: You have to draw the following circuits at: t=0-, t=0+, RTH too 2 + W 3r - Velt) 24 9A...
Q5. (20 pts] Given i (0)=0 and Vc(0)=0, find the following for the circuit of Fig. 5 using time domain techniques a) W., alpha, S1, and s2. b) vc(-) = vc(final) = vc(steady-state). c) vc(t) for t20. t=0 / 0.11 1812 | + 0.4uF + V(t) 48V = Fig. 5
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