1. A 20 2 Resistor is connected in parallel with an Inductance of 2.387 mH across a 60 V, 1 KHz supply. Calculate the: (A) Current in each branch, (B) Supply Current, (C) Circuit Phase Angle, (D)...


Please answer both questions with subparts i will positive rate


1. A 20 2 Resistor is connected in parallel with an Inductance of<br>2.387 mH across a 60 V, 1 KHz supply. Calculate the: (A)<br>Current in each branch, (B) Supply Current, (C) Circuit Phase<br>Angle, (D) Circuit Impedance, and (E) Power Consumed.<br>2. A 30 µF Capacitor is connected in parallel with an 80 2 Resistor<br>across a 240 V, 50 Hz supply. Calculate the: (A) Current in each<br>branch, (B) Supply Current, (C) Circuit Phase Angle, (D) Circuit<br>Impedance, (E) Power Dissipated.<br>

Extracted text: 1. A 20 2 Resistor is connected in parallel with an Inductance of 2.387 mH across a 60 V, 1 KHz supply. Calculate the: (A) Current in each branch, (B) Supply Current, (C) Circuit Phase Angle, (D) Circuit Impedance, and (E) Power Consumed. 2. A 30 µF Capacitor is connected in parallel with an 80 2 Resistor across a 240 V, 50 Hz supply. Calculate the: (A) Current in each branch, (B) Supply Current, (C) Circuit Phase Angle, (D) Circuit Impedance, (E) Power Dissipated.

Jun 11, 2022
SOLUTION.PDF
SOLUTION.PDF

Get Answer To This Question

Related Questions & Answers

More Questions »

Submit New Assignment

Copy and Paste Your Assignment Here
Have files?