Below is a parallel R-L-C alternating current circuit. Resistance in the circuit R = 20 Ω, the coil reactance XL = 10 Ω, reactance of the capacitor XC = 50 Ω. Peak from alternating current source in the circuit Alternating voltage is applied in the form of 50sin (350t) with a value of 50 Volts. According to this; Calculate the inductance (L) of the coil and the capacitance (C) of the capacitor. Calculate the currents (IR, IL and IC) passing through each circuit element. Calculate the impedance (Z) and total current (IT) of the circuit. Draw the current-voltage phase relationship triangle of the circuit and calculate the phase difference between
Below is a parallel R-L-C alternating current circuit. Resistance in the circuit R = 20 Ω, the coil
reactance XL = 10 Ω, reactance of the capacitor XC = 50 Ω. Peak from alternating current source in the circuit
Alternating voltage is applied in the form of 50sin (350t) with a value of 50 Volts. According to this;
Calculate the inductance (L) of the coil and the capacitance (C) of the capacitor.
Calculate the currents (IR, IL and IC) passing through each circuit element.
Calculate the impedance (Z) and total current (IT) of the circuit.
Draw the current-voltage phase relationship triangle of the circuit and calculate the phase difference between the 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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