**Determine the following for the network below.**A schematic of an electrical network is shown. It includes a voltage source \( E = 50 \, \text{V} \angle 0^\circ \) with a frequency \( f = 60 \, \text{Hz} \). The circuit contains three components in series:- A resistor \( R \) with a resistance of \( 3 \, \Omega \)- A capacitor \( X_C \) with a reactance of \( 5 \, \Omega \)- An inductor \( X_L \) with a reactance of \( 9 \, \Omega \)**Find the average power delivered to each element.**1. \( P_R = \) [Input Box] units2. \( P_C = \) [Input Box] units3. \( P_L = \) [Input Box] unitsPlease calculate the power delivered to each component using appropriate formulas for resistive and reactive elements in AC circuits. **Reactive Power Calculation**1. **Find the reactive power for each element.** - \( Q_R = \) [______] units - \( Q_C = \) [______] units - \( Q_L = \) [______] units2. **Find the total complex power in rectangular and polar form.** - \( S_T = \) [______] units [______] + j [______] units - \( S_T = \) [______] ∠ [______]° units3. **Find the total apparent power.** - \( |S_T| = \) [______] units [______]4. **Using only power quantities, determine the power factor.** - pf = [______] (lagging or leading) [______]**Note:** On your handwritten work, sketch the power triangle to visualize the relationships between the real, reactive, and apparent power.

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Answered: Determine the following for the network…

Determine the following for the network below. Xc E = 50 V 20° + f = 60 Hz R ww 3 Ω Find the average power delivered to each element. PR= units Pc = P₁ = units 5Ω units voo 9Ω

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Question

**Determine the following for the network below.**

A schematic of an electrical network is shown. It includes a voltage source \( E = 50 \, \text{V} \angle 0^\circ \) with a frequency \( f = 60 \, \text{Hz} \). The circuit contains three components in series:

- A resistor \( R \) with a resistance of \( 3 \, \Omega \)
- A capacitor \( X_C \) with a reactance of \( 5 \, \Omega \)
- An inductor \( X_L \) with a reactance of \( 9 \, \Omega \)

**Find the average power delivered to each element.**

1. \( P_R = \) [Input Box] units
2. \( P_C = \) [Input Box] units
3. \( P_L = \) [Input Box] units

Please calculate the power delivered to each component using appropriate formulas for resistive and reactive elements in AC circuits.

**Reactive Power Calculation**

1. **Find the reactive power for each element.**
- \( Q_R = \) [______] units
- \( Q_C = \) [______] units
- \( Q_L = \) [______] units

2. **Find the total complex power in rectangular and polar form.**
- \( S_T = \) [______] units [______] + j [______] units
- \( S_T = \) [______] ∠ [______]° units

3. **Find the total apparent power.**
- \( |S_T| = \) [______] units [______]

4. **Using only power quantities, determine the power factor.**
- pf = [______] (lagging or leading) [______]

**Note:** On your handwritten work, sketch the power triangle to visualize the relationships between the real, reactive, and apparent power.

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Step 1: Determine the Unknown variables given in the question:

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Step 2: Find total impedance of the circuit:

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Step 3: Find current through the circuit:

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Step 4: Find average power delivered to resistance and capacitance:

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Step 5: Find average power delivered to inductance:

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Step 6: Find reactive power delivered to resistor and capacitor:

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Step 7: Find reactive power delivered to inductor:

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Step 8: Find total complex power and apparent power:

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Step 9: Find power factor of the circuit:

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