An RLC circuit consists of a 379 Ohm resistor, a 5 milli-henrie inductor, and a capacitor connected in series to an AC voltage source. At a frequency of 53 kilo-hertz, the phase angle is +62 degrees. What is the resonant frequency of the circuit in kilo-hertz?
An RLC circuit consists of a 379 Ohm resistor, a 5 milli-henrie inductor, and a capacitor...
An RLC circuit consists of a 324 Ohm resistor, a 8 milli-henrie inductor, and a capacitor connected in series to an AC voltage source. At a frequency of 53 kilo-hertz, the phase angle is +79 degrees. What is the resonant frequency of the circuit in kilo-hertz?
4) An RLC circuit consists of a resistor, a inductor, and a capacitor connected in series to an AC voltage source with an RMS voltage of 59 volts. At half the resonant frequency, the phase angle is -35 degrees and the inductive reactance is 46 Ohms. What is the average dissipated power at twice the resonant frequency in Watts?
An RLC circuit consists of a resistor, a inductor, and a capacitor connected in series to an AC voltage source with an RMS voltage of 74 volts. At half the resonant frequency, the phase angle is -25 degrees and the inductive reactance is 47 Ohms. What is the average dissipated power at twice the resonant frequency in Watts?
Question 4 4) An RLC circuit consists of a resistor, a inductor, and a capacitor connected in series to an AC voltage source with an RMS voltage of 95 volts. At half the resonant frequency, the phase angle is -33 degrees and the inductive reactance is 50 Ohms. What is the average dissipated power at twice the resonant frequency in Watts?
Check my work please: 4) An RLC circuit consists of a resistor, a inductor, and a capacitor connected in series to an AC voltage source with an RMS voltage of 51 volts. At half the resonant frequency, the phase angle is 24 degrees and the inductive reactance is 46 Ohms. What is the average dissipated power at twice the resonant frequency in Watts? 그mt : 2902. 83-t 81212723.3c -2イイ·m)
A 2 kilo-ohm resistor is connected in series to an 6 milli-henrie inductor and a 2000 V battery (DC). After, 1.22 micro-seconds, what is the voltage across the inductor in volts?
A 2 kilo-ohm resistor is connected in series to an 4 milli-henrie inductor and a 2000 V battery (DC). After, 1.2 micro-seconds, what is the voltage across the resistor in volts?
4. A 2 kilo-ohm resistor is connected in series to an 3 milli-henrie inductor and a 2000 V battery (DC). After, 1.13 micro-seconds, what is the voltage across the inductor in volts?
An RLC series circuit with 150-ohm resistor, 25-mH inductor, and 2 microfarad-capacitor is powered by an AC voltage source with a peak voltage of 340V and a frequency of 660 Hz. (a) Find the peak current that flows in the circuit. (b) Determine the phase angle of the source voltage relative to the current. (c) Determine the peak voltage across the resistor and its phase angle relative to the voltage source. (d) Find the peak voltage across the inductor and...
An RLC series circuit with 150-ohm resistor, 25-mH inductor, and 2 microfarad-capacitor is powered by an AC voltage source with a peak voltage of 340V and a frequency of 660 Hz. (a) Find the peak current that flows in the circuit. (b) Determine the phase angle of the source voltage relative to the current. (c) Determine the peak voltage across the resistor and its phase angle relative to the voltage source. (d) Find the peak voltage across the inductor and...