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Problem 10.10-1 Determine the real and imaginary parts of the impedance of the series circuit. 78...
Problem 10.10-1 72 kS2 The input to this circuit is the voltage source voltage given by...
Problem 10.10-1 72 kS2 The input to this circuit is the voltage source voltage given by v(t) 2.65cos 310t-15° v 0.5HF The output is the voltage Vo(t)-Acos(310 t + ?) v vi0) ou) where A and ? are constants such that A > 0 and-180° < ? < 180°. Determine the values of the constants A and ?: | V and ?
Determine resonant frequency, amplitude, impedance, and phase angle. (b) Suppose the circuit parameters in a series...
Determine resonant frequency, amplitude, impedance,
and phase angle.
(b) Suppose the circuit parameters in a series RLC circuit are: L = 1.0 uH, C = 10.0 nF, R= 10092, and the source voltage is 220 V. Determine the resonant frequency of the circuit and the amplitude of the current at resonance. If the frequency of the input voltage source is 50 Hz, calculate the impedance and the phase angle. f = 1 / 2 x 5c = 1/2 X 511...
Part C - Combine impedances in series and in parallel to simplify a circuit in the...
Part C - Combine impedances in series and in parallel to simplify a circuit in the frequency domain Consider the time-domain circuit shown here, which is a variation of the circuit from Paris A and B. The 100 22 resistor and the capacitance have been switched. Suppose we are able to adjust the frequency of the source by changing w, so the source is described as v(t) = 25 cos(ut - 30°) 2.5 UF 2002 VO 3 1002 350 mH...
Example 10.5-3 (See Example 10.5-3 in the textbook for the solution to a similar problem.) 2...
Example 10.5-3 (See Example 10.5-3 in the textbook for the solution to a similar problem.) 2 mF 13o This circuit is at steady state. The input to this circuit is the voltage source voltage, vs(t), given by Vs(t) = 45cos(20t + (-50° ) | V The output voltage, Vo(t), can be expressed as Vo (t) = A cos(20t+ θ) v where A and θ are constants such that A > 0 and-180° < θ < 180°. Determine the values of...
Example 10.5-1 (See Example 10.5-1 in the textbook for the solution to a similar problem.) 68Ω...
Example 10.5-1 (See Example 10.5-1 in the textbook for the solution to a similar problem.) 68Ω i(t) yso) 6.0H This circuit is at steady state. The input to this circuit is the voltage source voltage, vs(t), given by Vs(t) = 22cos(12t + (35° ) v The steady-state mesh current, (t), can be expressed as i(t)-A cos(12t + θ) mA 1809. Determine the values of the constants A and θ: where A and θ are constants such that A > 0...
A series AC circuit contains a resistor, an inductor of 200 mH, a capacitor of 4.30...
A series AC circuit contains a resistor, an inductor of 200 mH, a capacitor of 4.30 µF, and a source with ΔVmax = 240 V operating at 50.0 Hz. The maximum current in the circuit is 180 mA. (a) Calculate the inductive reactance. Ω (b) Calculate the capacitive reactance. Ω (c) Calculate the impedance. kΩ (d) Calculate the resistance in the circuit. kΩ (e) Calculate the phase angle between the current and the source voltage. °
Part A: What is the impedance of the circuit? Part B: What is the current amplitude?...
Part A: What is the impedance of the circuit?
Part B: What is the current amplitude?
Part C: What is the phase angle of the source voltage with
respect to the current?
Part D: Does the source voltage lag or lead the current?
Part E: What is the voltage amplitude across the resistor?
Part F: What is the voltage amplitude across the inductor?
Part G: What is the voltage amplitudes across the capacitor?
Constants You have a resistor of resistance...
Problem 04: A voltage source is expressed by the following Fourier series: v(t) = -2 +...
Problem 04: A voltage source is expressed by the following Fourier series: v(t) = -2 + 5* sin(t) – 5*cos(t) – 3* sin(2*t) + 4*cos(2*t) – sin(3*t) – 6*cos(3*t) + 4*sin(4*t) + 6*cos(4*t). Now, (a) Express v(t) in amplitude-phase form. (b) Draw the amplitude and phase spectra of v(t) (c) Determine the effective value (rms value) of the voltage v(t) (d) If the voltage is applied across an impedance block as shown in the circuit below, determine the average power...
Physics 1. A series RC circuit has a resistance of 56.0 kΩ and capacitance of 15.0...
Physics 1. A series RC circuit has a resistance of 56.0 kΩ and capacitance of 15.0 μF, is connected to a source of 9.0 V. (a) Determine the time constant of the circuit. (b) Make a load chart vs. Time / Go to :(Https://www.desmos.com/calculator). For the graph, use the following domain-0.166 ≤ x ≤ 10.5 and the range 0 ≤ and ≤ 0.00015, these values are set to "graph setting". (c) What is the load in the circuit after 1.8...
Spring 2018 ス11 em 2. (15 pts.) A 200 Milz generator circuit with series impedance Zg...
Spring 2018 ス11 em 2. (15 pts.) A 200 Milz generator circuit with series impedance Zg 50 2 and voltage source given by Vs) 20 Sinfot 60) v is connected to a load Za-00-50/a through a 50- 3.7m long lossless transmission line (Figure 2). The phase velocity of the line is 2*10° m/s. Find: : Distance from the load, in meters, of the voltage minimum nearest to thel l. Number of locations on the transmission line at which the voltage...
Problem 10.10-1 72 kS2 The input to this circuit is the voltage source voltage given by v(t) 2.65cos 310t-15° v 0.5HF The output is the voltage Vo(t)-Acos(310 t + ?) v vi0) ou) where A and ? are constants such that A > 0 and-180° < ? < 180°. Determine the values of the constants A and ?: | V and ?
Determine resonant frequency, amplitude, impedance,
and phase angle.
(b) Suppose the circuit parameters in a series RLC circuit are: L = 1.0 uH, C = 10.0 nF, R= 10092, and the source voltage is 220 V. Determine the resonant frequency of the circuit and the amplitude of the current at resonance. If the frequency of the input voltage source is 50 Hz, calculate the impedance and the phase angle. f = 1 / 2 x 5c = 1/2 X 511...
Part C - Combine impedances in series and in parallel to simplify a circuit in the frequency domain Consider the time-domain circuit shown here, which is a variation of the circuit from Paris A and B. The 100 22 resistor and the capacitance have been switched. Suppose we are able to adjust the frequency of the source by changing w, so the source is described as v(t) = 25 cos(ut - 30°) 2.5 UF 2002 VO 3 1002 350 mH...
Example 10.5-3 (See Example 10.5-3 in the textbook for the solution to a similar problem.) 2 mF 13o This circuit is at steady state. The input to this circuit is the voltage source voltage, vs(t), given by Vs(t) = 45cos(20t + (-50° ) | V The output voltage, Vo(t), can be expressed as Vo (t) = A cos(20t+ θ) v where A and θ are constants such that A > 0 and-180° < θ < 180°. Determine the values of...
Example 10.5-1 (See Example 10.5-1 in the textbook for the solution to a similar problem.) 68Ω i(t) yso) 6.0H This circuit is at steady state. The input to this circuit is the voltage source voltage, vs(t), given by Vs(t) = 22cos(12t + (35° ) v The steady-state mesh current, (t), can be expressed as i(t)-A cos(12t + θ) mA 1809. Determine the values of the constants A and θ: where A and θ are constants such that A > 0...
Part A: What is the impedance of the circuit?
Part B: What is the current amplitude?
Part C: What is the phase angle of the source voltage with
respect to the current?
Part D: Does the source voltage lag or lead the current?
Part E: What is the voltage amplitude across the resistor?
Part F: What is the voltage amplitude across the inductor?
Part G: What is the voltage amplitudes across the capacitor?
Constants You have a resistor of resistance...
Problem 04: A voltage source is expressed by the following Fourier series: v(t) = -2 + 5* sin(t) – 5*cos(t) – 3* sin(2*t) + 4*cos(2*t) – sin(3*t) – 6*cos(3*t) + 4*sin(4*t) + 6*cos(4*t). Now, (a) Express v(t) in amplitude-phase form. (b) Draw the amplitude and phase spectra of v(t) (c) Determine the effective value (rms value) of the voltage v(t) (d) If the voltage is applied across an impedance block as shown in the circuit below, determine the average power...
Spring 2018 ス11 em 2. (15 pts.) A 200 Milz generator circuit with series impedance Zg 50 2 and voltage source given by Vs) 20 Sinfot 60) v is connected to a load Za-00-50/a through a 50- 3.7m long lossless transmission line (Figure 2). The phase velocity of the line is 2*10° m/s. Find: : Distance from the load, in meters, of the voltage minimum nearest to thel l. Number of locations on the transmission line at which the voltage...
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