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1.29 The voltage source of the circuit shown in Fig. P1.29 is given by vs(t) =...
03- The voltage source of the circuit shown in Fig. below is given by vs(t) =...
03- The voltage source of the circuit shown in Fig. below is given by vs(t) = 50cos(4x10^-45) (V). Obtain an expression for the current ic(t), flowing through the capacitor in time domain and frequency domain. K Let R=222, L=0.2mH, C= 1uF V5 (t) = bocos (4x1097-45°) (V) R=2KV 230-2mH C=1uF I Vs(t) 0.2m Ho ic(t)
Determine iL(t) for in the circuit of Fig. P12.21 for t =45 ms , given that...
Determine iL(t) for in the circuit of Fig. P12.21 for t =45 ms ,
given that the switch was opened at t = 0 after it had been closed
for a long time, vs = 12 mV, R0 = 5 Ω , R1 = 10 Ω,R2 = 20 Ω, L =
0.2 H, and C = 6 mF. Give the current in micro Amperes, Hint, the
initial conditions are zero and the steady state current in the
inductor will be...
8–31 A voltage vs(t) = 50 cos (5000t) V is applied to the circuit in Figure...
8–31 A voltage vs(t) = 50 cos (5000t) V is applied to the circuit in Figure P8–31. (a) Convert the circuit into the phasor domain. (b) Find the phasor current flowing through the circuit and the phasor voltages across the inductor and the resistor. (c) Plot all three phasors from (b) on a phasor diagram. Describe if the current leads or lags the inductor voltage. i(t) 50 22 25 mH 00 + VL(t) - + Vr(t)- vs(t) (+) FIGURE P8-31
find iL(t) For the circuit shown below, Vs - 200V, R = 3k32, R2 = 5k82,...
find iL(t)
For the circuit shown below, Vs - 200V, R = 3k32, R2 = 5k82, C-0.125uF and L=8mH. Find (a) the initial voltage across the capacitor, ve(0), (b) the initial current through the inductor, iL(0), (C) the damping coefficient a and resonant frequency 0., (d) the initial condition dv/dt=0+, (e) the voltage across the capacitor ve(t) for t0,(1) the initial condition diu/dt)-0+, and (g) the current through the inductor il(t) for t>0. Vg 20V 2 souw Xol25x10 = 800...
(p11s20) The circuit below has a source Vs - 20 cos(8t) V, and The component values...
(p11s20) The circuit below has a source Vs - 20 cos(8t) V, and The component values are R1 - 2 Ohms C=0.25F, L=2H, and R2 = 4 Ohms. Solve for the voltage across the inductor, L. Ri Vs LE R2 10.06 /3.66° 20.55/38 21° None of the other answers 4.08/6.27° 17.92 /-27.63
Determine il(t) for in the circuit of Fig. P12.21 for t=16 ms, given that the switch...
Determine il(t) for in the circuit of Fig. P12.21 for t=16 ms, given that the switch was opened at t= 0 after it had been closed for a long time, vs = 12 mV, RO = 50, R1 = 10 A, R2 = 20 . L = 0.2 H, and C = 6 mF. Give the current in micro Amperes, Hint, the initial conditions are zero and the steady state current in the inductor will be 800 microAmps. Correct Answer:...
Question 2 (10%) The input to the circuit shown in Fig. 2 is the voltage source...
Question 2 (10%) The input to the circuit shown in Fig. 2 is the voltage source vs(t). The output is the voltage across two open terminals, vo(). If v()-3-(t) V, the output is the voltage vo()-10+Se30* V for 20. Determine the values of Ri and R2. 2 sa) olt) Fig. 2
Just before the switch is opened at t-0 in the given figure, the current through the...
Just before the switch is opened at t-0 in the given figure, the current through the inductor is i e 1.5 mA. Determine the voltage v3 across R3 immediately after the switch is opened, where Vs 12 V, R1-6 kohm, R2 = 6 kohm, R3 10 kohm, and L-0.9 mH. t-0 R2 IL The voltage vs across R3 immediately after the switch is opened is answer to one decimal place.) V. (Round the final
3. Consider the AC circuit shown in the figure below, consisting of an alternating voltage source—of...
3. Consider the AC circuit shown in the figure below, consisting
of an alternating voltage source—of voltage V (t) = V0 cos (ωt)—a
capacitor (of capacitance C), an inductor (of inductance L), and
two resistors (of resistances R1 and R2). Also, note the
highlighted points a and b in the circuit. (a) While explaining
your reasoning, determine the necessary condition that must be
satisfied between the circuit elements such that the potential
difference between points a and b is zero...
A series RLC circuit is connected to an independent voltage source Vs = 160 V with...
A series RLC circuit is connected to an independent voltage source Vs = 160 V with a switch closing at t = 0. If R = 4.8 kohm, L = 4 mH, C = 0.25 mF, find the s-domain and time domain (when t > 0) representations of the current, a) if there is no stored energy in the circuit. b) if the 100 mJ stored energy is equally shared between the inductor and the capacito
03- The voltage source of the circuit shown in Fig. below is given by vs(t) = 50cos(4x10^-45) (V). Obtain an expression for the current ic(t), flowing through the capacitor in time domain and frequency domain. K Let R=222, L=0.2mH, C= 1uF V5 (t) = bocos (4x1097-45°) (V) R=2KV 230-2mH C=1uF I Vs(t) 0.2m Ho ic(t)
Determine iL(t) for in the circuit of Fig. P12.21 for t =45 ms ,
given that the switch was opened at t = 0 after it had been closed
for a long time, vs = 12 mV, R0 = 5 Ω , R1 = 10 Ω,R2 = 20 Ω, L =
0.2 H, and C = 6 mF. Give the current in micro Amperes, Hint, the
initial conditions are zero and the steady state current in the
inductor will be...
8–31 A voltage vs(t) = 50 cos (5000t) V is applied to the circuit in Figure P8–31. (a) Convert the circuit into the phasor domain. (b) Find the phasor current flowing through the circuit and the phasor voltages across the inductor and the resistor. (c) Plot all three phasors from (b) on a phasor diagram. Describe if the current leads or lags the inductor voltage. i(t) 50 22 25 mH 00 + VL(t) - + Vr(t)- vs(t) (+) FIGURE P8-31
find iL(t)
For the circuit shown below, Vs - 200V, R = 3k32, R2 = 5k82, C-0.125uF and L=8mH. Find (a) the initial voltage across the capacitor, ve(0), (b) the initial current through the inductor, iL(0), (C) the damping coefficient a and resonant frequency 0., (d) the initial condition dv/dt=0+, (e) the voltage across the capacitor ve(t) for t0,(1) the initial condition diu/dt)-0+, and (g) the current through the inductor il(t) for t>0. Vg 20V 2 souw Xol25x10 = 800...
(p11s20) The circuit below has a source Vs - 20 cos(8t) V, and The component values are R1 - 2 Ohms C=0.25F, L=2H, and R2 = 4 Ohms. Solve for the voltage across the inductor, L. Ri Vs LE R2 10.06 /3.66° 20.55/38 21° None of the other answers 4.08/6.27° 17.92 /-27.63
Determine il(t) for in the circuit of Fig. P12.21 for t=16 ms, given that the switch was opened at t= 0 after it had been closed for a long time, vs = 12 mV, RO = 50, R1 = 10 A, R2 = 20 . L = 0.2 H, and C = 6 mF. Give the current in micro Amperes, Hint, the initial conditions are zero and the steady state current in the inductor will be 800 microAmps. Correct Answer:...
Question 2 (10%) The input to the circuit shown in Fig. 2 is the voltage source vs(t). The output is the voltage across two open terminals, vo(). If v()-3-(t) V, the output is the voltage vo()-10+Se30* V for 20. Determine the values of Ri and R2. 2 sa) olt) Fig. 2
Just before the switch is opened at t-0 in the given figure, the current through the inductor is i e 1.5 mA. Determine the voltage v3 across R3 immediately after the switch is opened, where Vs 12 V, R1-6 kohm, R2 = 6 kohm, R3 10 kohm, and L-0.9 mH. t-0 R2 IL The voltage vs across R3 immediately after the switch is opened is answer to one decimal place.) V. (Round the final
3. Consider the AC circuit shown in the figure below, consisting
of an alternating voltage source—of voltage V (t) = V0 cos (ωt)—a
capacitor (of capacitance C), an inductor (of inductance L), and
two resistors (of resistances R1 and R2). Also, note the
highlighted points a and b in the circuit. (a) While explaining
your reasoning, determine the necessary condition that must be
satisfied between the circuit elements such that the potential
difference between points a and b is zero...
A series RLC circuit is connected to an independent voltage source Vs = 160 V with a switch closing at t = 0. If R = 4.8 kohm, L = 4 mH, C = 0.25 mF, find the s-domain and time domain (when t > 0) representations of the current, a) if there is no stored energy in the circuit. b) if the 100 mJ stored energy is equally shared between the inductor and the capacito
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