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 parallel RL circuit predominantly inductive, predominantly resistive, and when are both inductive and resistive effects equal?
a) At which frequency range is impedance of series RC circuit predominantly capacitive, predominantly resistive, and...
20 - 10 2020- -capacitive In a series RLC circuit, when the impedance of circuit is equal to the resistance of the resistor? when the frequency of the emf is less than the resonant frequency of the circuit. when the capacitive reactance is equal to the inductive reactance. مانعة & hp
Calculate the capacitive reactance, the impedance, and the phase angle, phi, for a series RC circuit having a frequency, f of 1.00e+05 Hz, resistance, R of 2.00e+02 ohms, and capacitance, C of 3.30e-01 uF (microfarads).
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.
5.A series RC circuit contains a 0.01 microfarad capacitor and a 2,000 ohm resistor, and has a frequency of 500 HZ. What is the impedance of the circuit? A. 90,285 ohms B. 52,285 ohms C. 42,164 ohms D. 31,910 ohms 1. A series RC circuit has a source voltage of 24 VAC and an impedance of 252 ohms. What is the circuit current? A. 95 A B. 0.095 A C. 9.5 A D. 0.95 A 2. A 0.015 micro arad...
A series RC circuit has resistance R - 14.00 inductive reactance X20:00, and capacitive reactance X 12. 00. If the maximum voltage across the resistor is av = 125 V, find the maximum voltage across the inductor and the capacitor. (Due to the nature of this problem, do not use rounded intermediate values in your calculations including answers submitted in Webassin) HINT (a) the maximum voltage across the inductor (in V) (b) the maximum voltage across the capacitor ( V)...
Indicate the phase equation for this circuit. Indicate the range of phase and phase at low frequency and high frequency. Are they resistive, capacitive or inductive for each. Type I Series RLC
A series ac circuit has a resistance of 4.0 Ω, a capacitive reactance of 26 Ω and an inductive reactance of 17 Ω Find the impedance of the circuit. A.9.8 Ω B.0.8 Ω C.4.8 Ω D.28.8 Ω E.18.8 Ω
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?...
for the circuit below: a. Circuit Impedance in polar and rectangular form. b. Is the circuit more inductive or more capacitive? c. Draw the impedance phasor diagram. d. The net reactance that will make the impedance magnitude equal to 100 ohms. e. Itot, VR, VL, and VC in polar form. f. Draw the voltage phasor diagram. 47 2 80 2 35 22 4_ov frequency is 5KHz:
A circuit consists of a resistor, capacitor, and inductor connected in series to an AC source. As the source frequency increases, the current in the circuit decreases. Which statement about the circuit is NOT correct as the source frequency increases? a) The inductive reactance increases. b) The circuit is said to become more capacitive than inductive. c) The total power from the source decreases. d) The impedance of the circuit increases. e) The phase angle for the circuit becomes more...