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Problem 1. 100 uF 20cos(1000t) 10 mH 100 Volt) a) Using the source angular frequency, convert...
Problem#3. Find the ac steady state voltage Vo(t), if Vgi= 10Cos (5000t + 53.13%) and Vg2=...
Problem#3. Find the ac steady state voltage Vo(t), if Vgi= 10Cos (5000t + 53.13%) and Vg2= 8Sin (5000t), using nodal analysis. Hint: Convert to PHASOR values first and then provide the answers in time domain. 0.4 mH 50 uF HA < 60 VO2
1. A resistor R and capacitor care connected in series with an AC voltage source with...
1. A resistor R and capacitor care connected in series with an AC voltage source with frequency f and maximum voltage Vo. a. Find the complex impedance (in the form Z = R + jX). If the impedance is written in polar form (Z = Zejº), find expressions for Z and Ⓡ. Write your answers in terms of the variables R, C, and o(= 21f). b. If the voltage source is described by the phasor V = V, ejwt, and...
.Single-Frequency Analysis VR 1 + 0000 The circuit has L 100 mH, R 1 kn, C...
.Single-Frequency Analysis VR 1 + 0000 The circuit has L 100 mH, R 1 kn, C 0.05 F, and the sinusoidal source is described by: L vg V. 10 cos(27nft+ 90°) V where f 3 kHz In this step for single-frequency analysis, find the magnitudes and phases of V VR, Vc, and the current in the series circuit by L performing an analytical solution using phasor analysis. Then, you are to use PSpice to find these same magnitudes and phases...
please show solution to 4.7 Calculate the peak value of the voltage across the inductor in...
please show solution to 4.7
Calculate the peak value of the voltage across the inductor in figure 4.7(a), assuming Vo= 10 V, a 2t x 103 s, R= 1 2, L 25 mH, and C 1 uF. 4.6 Calculate the phase of the voltage across the inductor relative to the source in figure 4.7(a) for the values given in problem 4.6 4.7 90 Sinusoldal Circuits circuit-reducti to linear sinusoidal theorems for dc circuits can be applied cuits if the impedances...
2. LRC series circuit. [10 pts.] Consider an LRC series circuit driven by an ac voltage source Vi...
2. LRC series circuit. [10 pts.] Consider an LRC series circuit driven by an ac voltage source Vin Vo cos(wt). (a) Derive an expression for the real ac current in the circuit in terms of L, R, C, and a. (b) Determine the resonant frequency f, and angular frequency w, by direct differentiation of the current amplitude from part (a). Compare your result to LC (c) Determine the Q factor of this circuit in terms of L, R, and C....
Problem 4 For the circuit in Fig. 3, frequency w a) Draw the impedance model of the circuit for a source b) Convert the...
Problem 4 For the circuit in Fig. 3, frequency w a) Draw the impedance model of the circuit for a source b) Convert the voltage lence) and redraw the impedance model; (using Thevenin and Norton equiva- Source into a current source c) Using the results from part (b), derive the expressions to determine the resonance frequency of the circuit in terms of the circuit parameters; e) We would like to have a resonance peak gain frequency of fo equal to...
Question 1. (a) Consider the waveform below that has a period of T of 0.04 seconds....
Question 1. (a) Consider the waveform below that has a period of T of 0.04 seconds. What is the rms voltage of this waveform? V(t) 15 V 0.01 s 0.02 s T=0.04s (b) The figure below shows a network of resistances and reactances having values as shown connected to a voltage source with a voltage of (50+0j) volts rms and an angular frequency of 1000 rad/s. А. 32 3 mH V 52 200 uF 2 mH 1 mH (i) Redraw...
Chapter 23, Problem 42 A 100-2 resistor, a 0.232-uF capacitor, and a 5.27-mH inductor are connected...
Chapter 23, Problem 42 A 100-2 resistor, a 0.232-uF capacitor, and a 5.27-mH inductor are connected in series to a generator whose voltage is 22.0 v. The current in the circuit is 0.135 A. Because of the shape of the current-versus-frequency graph (shown), there are two possible values for the frequency that correspond to this current. Obtain these two values. Give (a) the smaller value, and (b) the larger value. Note: The ac current and voltage are rms values and...
Problem 24: (18 points) 1. (6 points) Figure 2 shows an RC circuit with input f(t)...
Problem 24: (18 points) 1. (6 points) Figure 2 shows an RC circuit with input f(t) and output y(t) Function Generator R, v, (r) y1) Figure 2: RC circuit. (a) (1 point) Sketch the circuit in the phasor domain by replacing the capacitor with its impedance represen- (b) (3 points) Using circuit analysis techniques, show that the frequency response function is Specify the DC gain, K, and the time constant, T, in terms of the parameters R, R, and C...
All missing parts please. (7%) Problem 6: A 16-Ω resistor, 45-uF capacitor, and 3.5-mH inductor are...
All missing parts please.
(7%) Problem 6: A 16-Ω resistor, 45-uF capacitor, and 3.5-mH inductor are connected in series with an AC source of amplitude 13 V and frequency 135 Hz. 8% Part (a) What is the impedance of the circuit, in ohms? 8% Part (b) What is the amplitude of the current in the circuit, in amperes? 8% Part (c) What is the phase constant of the current, in degrees? 8% Part (d) With a source voltage of Vsourc,-Vocos(2π...
Problem#3. Find the ac steady state voltage Vo(t), if Vgi= 10Cos (5000t + 53.13%) and Vg2= 8Sin (5000t), using nodal analysis. Hint: Convert to PHASOR values first and then provide the answers in time domain. 0.4 mH 50 uF HA < 60 VO2
1. A resistor R and capacitor care connected in series with an AC voltage source with frequency f and maximum voltage Vo. a. Find the complex impedance (in the form Z = R + jX). If the impedance is written in polar form (Z = Zejº), find expressions for Z and Ⓡ. Write your answers in terms of the variables R, C, and o(= 21f). b. If the voltage source is described by the phasor V = V, ejwt, and...
.Single-Frequency Analysis VR 1 + 0000 The circuit has L 100 mH, R 1 kn, C 0.05 F, and the sinusoidal source is described by: L vg V. 10 cos(27nft+ 90°) V where f 3 kHz In this step for single-frequency analysis, find the magnitudes and phases of V VR, Vc, and the current in the series circuit by L performing an analytical solution using phasor analysis. Then, you are to use PSpice to find these same magnitudes and phases...
please show solution to 4.7
Calculate the peak value of the voltage across the inductor in figure 4.7(a), assuming Vo= 10 V, a 2t x 103 s, R= 1 2, L 25 mH, and C 1 uF. 4.6 Calculate the phase of the voltage across the inductor relative to the source in figure 4.7(a) for the values given in problem 4.6 4.7 90 Sinusoldal Circuits circuit-reducti to linear sinusoidal theorems for dc circuits can be applied cuits if the impedances...
2. LRC series circuit. [10 pts.] Consider an LRC series circuit driven by an ac voltage source Vin Vo cos(wt). (a) Derive an expression for the real ac current in the circuit in terms of L, R, C, and a. (b) Determine the resonant frequency f, and angular frequency w, by direct differentiation of the current amplitude from part (a). Compare your result to LC (c) Determine the Q factor of this circuit in terms of L, R, and C....
Problem 4 For the circuit in Fig. 3, frequency w a) Draw the impedance model of the circuit for a source b) Convert the voltage lence) and redraw the impedance model; (using Thevenin and Norton equiva- Source into a current source c) Using the results from part (b), derive the expressions to determine the resonance frequency of the circuit in terms of the circuit parameters; e) We would like to have a resonance peak gain frequency of fo equal to...
Question 1. (a) Consider the waveform below that has a period of T of 0.04 seconds. What is the rms voltage of this waveform? V(t) 15 V 0.01 s 0.02 s T=0.04s (b) The figure below shows a network of resistances and reactances having values as shown connected to a voltage source with a voltage of (50+0j) volts rms and an angular frequency of 1000 rad/s. А. 32 3 mH V 52 200 uF 2 mH 1 mH (i) Redraw...
Chapter 23, Problem 42 A 100-2 resistor, a 0.232-uF capacitor, and a 5.27-mH inductor are connected in series to a generator whose voltage is 22.0 v. The current in the circuit is 0.135 A. Because of the shape of the current-versus-frequency graph (shown), there are two possible values for the frequency that correspond to this current. Obtain these two values. Give (a) the smaller value, and (b) the larger value. Note: The ac current and voltage are rms values and...
Problem 24: (18 points) 1. (6 points) Figure 2 shows an RC circuit with input f(t) and output y(t) Function Generator R, v, (r) y1) Figure 2: RC circuit. (a) (1 point) Sketch the circuit in the phasor domain by replacing the capacitor with its impedance represen- (b) (3 points) Using circuit analysis techniques, show that the frequency response function is Specify the DC gain, K, and the time constant, T, in terms of the parameters R, R, and C...
All missing parts please.
(7%) Problem 6: A 16-Ω resistor, 45-uF capacitor, and 3.5-mH inductor are connected in series with an AC source of amplitude 13 V and frequency 135 Hz. 8% Part (a) What is the impedance of the circuit, in ohms? 8% Part (b) What is the amplitude of the current in the circuit, in amperes? 8% Part (c) What is the phase constant of the current, in degrees? 8% Part (d) With a source voltage of Vsourc,-Vocos(2π...
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