3. The circuit is connected to a 60-Hz line. The apparent power in the circuit is 29.985 VA, and the power factor is 62.5%. The resistor has a voltage drop of 14.993 V, the inductor has an inductive reactance of 60 N, and the capacitor has a capacitive reactance of 45 N. ET ER 14.993 V EL Ec IT IR XL 60 N Xc 45 N VA 29.985 VARS VARSC PF 62.5% C

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### Example Problem on AC Circuit Analysis #### Problem Statement: The circuit is connected to a 60-Hz line. The apparent power in the circuit is 29.985 VA, and the power factor is 62.5%. The resistor has a voltage drop of 14.993 V; the inductor has an inductive reactance of 60 Ω, and the capacitor has a capacitive reactance of 45 Ω. #### Given Data: - **Frequency**: 60 Hz - **Apparent Power (S)**: 29.985 VA - **Power Factor (PF)**: 62.5% - **Voltage drop across Resistor (ER)**: 14.993 V - **Inductive Reactance (XL)**: 60 Ω - **Capacitive Reactance (XC)**: 45 Ω The values to be found are represented in the following variables: - **Total Voltage (ET)**: ________ - **Total Current (IT)**: ________ - **Impedance (Z)**: ________ - **Voltage drop across Inductor (EL)**: ________ - **Voltage drop across Capacitor (EC)**: ________ - **Resistor Current (IR)**: ________ - **Inductive Current (IL)**: ________ - **Capacitive Current (IC)**: ________ - **Power across Resistor (P)**: ________ - **Reactive Power - Inductor (VARsL)**: ________ - **Reactive Power - Capacitor (VARsC)**: ________ - **Phase Angle (∠θ)**: ________ - **Inductance (L)**: ________ - **Capacitance (C)**: ________ This detailed problem assists in understanding the individual component behaviors in an AC circuit, particularly focusing on calculating and analyzing voltages, currents, and various power factors. #### Diagram and Graphical Information: There are no diagrams or graphical representations provided in the problem statement. The problem focuses on numeric interpretation and calculation based on the given parameters.