current circuit. Resistance in the circuit R = 1X Ω, the coil The inductance is L = 0.1X H, the capacitance of the capacitor is C = 1XX μF. Peak Value to the circuit at a frequency of 5X Hz AC voltage of V = 2XX Volts is applied. According to these values; Calculate the reactants (XL and XC) of the coil and capacitor. Calculate the impedance (Z) and total current (I) of the circuit. Calculate the voltages (VR, VL, and VC) falling on the resistor, coil, and capacitor.
Below is a series R-L-C alternating current circuit. Resistance in the circuit R = 1X Ω, the coil The inductance is L = 0.1X H, the capacitance of the capacitor is C = 1XX μF. Peak Value to the circuit at a frequency of 5X Hz AC voltage of V = 2XX Volts is applied. According to these values;
Calculate the reactants (XL and XC) of the coil and capacitor.
Calculate the impedance (Z) and total current (I) of the circuit.
Calculate the voltages (VR, VL, and VC) falling on the resistor, coil, and capacitor.
Draw the current-voltage phase relationship triangle of the circuit and calculate the phase difference between circuit current and voltage
calculate.
According to the calculated phase difference angle, the source voltage and total current waveforms of the circuit must be the same.
draw on the graph.
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