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20 - 10 2020- -capacitive In a series RLC circuit, when the impedance of circuit is...
When the frequency is twice the resonant frequency, the impedance of a series RLC circuit is three times the value of the impedance at resonance. Obtain the ratios of the inductive and capacitive reactances to the resistance (XL/R and XC/R) when the frequency is twice the resonant frequency.
a) At which frequency range is impedance of series RC circuit predominantly capacitive, predominantly resistive, and when are both capacitive and resistive effects equal? b) At which frequency range is impedance of parallel RC circuit predominantly capacitive, predominantly resistive, and when are both capacitive and resistive effects equal? c) At which frequency range is impedance of series RL circuit predominantly inductive, predominantly resistive, and when are both inductive and resistive effects equal? d) At which frequency range is impedance of...
A RLC circuit is driven by an AC source of 120volts with frequency 60H_z. The resistance is 2000 Ohm, the capacitance is 500 mu F, and the inductance is 100_m M. Find the inductive reactance, The capacitive reactance, the impedance, the current, and the resonant frequency.
For a particular RLC series circuit, the capacitive reactance is 5.35, the inductive reactance is 46.7, and the maximum voltage across the 94.5 resistor is 36.7 V. What is the maximum voltage across the circuit?
Question 1 1 pts When an RLC series circuit is in resonance, its impedance is: O equal to its resistance. O at maximum. O negative. O zero. Question 2 1 pts Consider an AC series circuit containing a coil, capacitor and resistance. Tripling the frequency will change the inductive reactance by what factor? O 1 3 O 1/3 O 1.73 Question 3 1 pts The power factor in an AC series circuit is equal to which of the following ratios?...
Consider an RLC circuit where a resistor (R = 35.0 Ω), capacitor (C = 15.5 μF), and inductor (L = 0.0940 H) are connected in series with an AC source that has a frequency of 80.0 Hz. a. Determine the capacitive reactance at this frequency. b. Determine the inductive reactance at this frequency. c. Determine the total impedance. d. Determine the phase angle. e. Determine the circuit’s resonant frequency.
A series RLC circuit has a capacitive reactance of 16 Ω and an inductive reactance of 4.0 Ω at 30 Hz. What frequency would result in resonance for this circuit?
For a particular RLC series circuit, the capacitive reactance is 4.35 Ω, the inductive reactance is 37.5 Ω, and the maximum voltage across the 57.1-Ω resistor is 26.1 V. What is the maximum voltage across the circuit?
A series RLC circuit that has an inductance of 6 mH, a capacitance of 3 μF, and a resistance of 7.2 is driven by an ideal ac voltage source that has a peak emf of 110 V (a) Find the resonant frequency 1.19 rad/s (b) Find the root-means-square current at resonance When the frequency is 8000 rad/s, find the following values. (c) the capacitive and inductive reactances (d) the impedance (e) the root-mean square current. (f) the phase angle δ...
In an RLC series circuit that includes a source of alternating current operating at fixed frequency and voltage, the resistance R is equal to the inductive reactance. The RLC series circuit uses a parallel plate capacitor. If the plate separation of the capacitor is reduced to half of its original value, the current in the circuit doubles. Find the initial capacitive reactance in terms of R.