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Type : Classeur 3.6
Page(s) : 5
Taille Size: 170.31 Ko KB
Mis en ligne Uploaded: 31/07/2021 - 04:06:25
Uploadeur Uploader: jmagio (Profil)
Téléchargements Downloads: 13
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30/07/2021 Solved: Chapter 10 Problem 20P Solution | Electric Circuits 10th Edition | Chegg.com
Textbook Solutions Expert Q&A Practice
Find solutions for your homework
Chapter 10, Problem 20P 22 Bookmarks Search
Show all steps: ON
home / study / engineering / electrical engineering / electric circuits / electric circuits solutions manuals / electric circuits / 10th edition
Electric Circuits (10th Edition) Post a question
Answers from our experts for your tough
homework questions
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Walkthrough video for this problem:
Chapter 10, Problem 20p
14:29 2 0 Continue to post
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Step-by-step solution We'll send you a one-time
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Step 1 of 9
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Determine inductive reactance. the app. Standard messaging rates may apply.
My Textbook Solutions
Determine capacitive reactance.
Electric Student Multivariab
Circuits Solutions... Calculus
10th Edition 4th Edition 3rd Edition
(2)
View all solutions
Comment
Step 2 of 9
Redraw the circuit with capacitive reactance and inductive reactance.
Comment
Step 3 of 9
Determine total impedance.
https://www.chegg.com/homework-help/Electric-Circuits-10th-edition-chapter-10-problem-20P-solution-9780133760033 1/5
30/07/2021 Solved: Chapter 10 Problem 20P Solution | Electric Circuits 10th Edition | Chegg.com
Textbook Solutions Expert Q&A Practice
Chapter 10, Problem 20P 22 Bookmarks Show all steps: ON
Comment
Walkthrough
Step 4 of 9 for problem
Determine generating current.
Determine apparent power delivered by source.
Thus, the average power delivered by source is,
Thus, the reactive power delivered by source is, .
Comments (1)
Step 5 of 9
(b)
Calculate the current, .
Power delivered to resistor.
Comment
https://www.chegg.com/homework-help/Electric-Circuits-10th-edition-chapter-10-problem-20P-solution-9780133760033 2/5
30/07/2021 Solved: Chapter 10 Problem 20P Solution | Electric Circuits 10th Edition | Chegg.com
Textbook Solutions Expert Q&A
Step 6 of 9
Practice
Power delivered
Chapter to 10, Problem
resistor.20P 22 Bookmarks Show all steps: ON
Total power delivered is,
Walkthrough
for problem
Thus, the power delivered by the source is equal to power absorbed by the circuit.
Comment
Step 7 of 9
(c)
Determine current passing through the capacitive reactance.
Comment
Step 8 of 9
Reactive power absorbed by the capacitor.
Comments (1)
Step 9 of 9
Reactive power absorbed by the inductor.
https://www.chegg.com/homework-help/Electric-Circuits-10th-edition-chapter-10-problem-20P-solution-9780133760033 3/5
30/07/2021 Solved: Chapter 10 Problem 20P Solution | Electric Circuits 10th Edition | Chegg.com
Textbook Solutions Expert Q&A Practice
Chapter 10, Problem 20P 22 Bookmarks Show all steps: ON
Thus, reactive power delivered by the source is equal to reactive power absorbed by the circuit.
Comment
Walkthrough
for problem
...
Textbook Solutions Expert Q&A Practice
Find solutions for your homework
Chapter 10, Problem 20P 22 Bookmarks Search
Show all steps: ON
home / study / engineering / electrical engineering / electric circuits / electric circuits solutions manuals / electric circuits / 10th edition
Electric Circuits (10th Edition) Post a question
Answers from our experts for your tough
homework questions
See this solution in the app
Enter question
Walkthrough video for this problem:
Chapter 10, Problem 20p
14:29 2 0 Continue to post
Walkthrough
for problem 20 questions remaining
Snap a photo from your
phone to post a question
Step-by-step solution We'll send you a one-time
download link
Step 1 of 9
888-888-8888 Text me
(a)
By providing your phone number, you agree to rec
a one-time automated text message with a link to
Determine inductive reactance. the app. Standard messaging rates may apply.
My Textbook Solutions
Determine capacitive reactance.
Electric Student Multivariab
Circuits Solutions... Calculus
10th Edition 4th Edition 3rd Edition
(2)
View all solutions
Comment
Step 2 of 9
Redraw the circuit with capacitive reactance and inductive reactance.
Comment
Step 3 of 9
Determine total impedance.
https://www.chegg.com/homework-help/Electric-Circuits-10th-edition-chapter-10-problem-20P-solution-9780133760033 1/5
30/07/2021 Solved: Chapter 10 Problem 20P Solution | Electric Circuits 10th Edition | Chegg.com
Textbook Solutions Expert Q&A Practice
Chapter 10, Problem 20P 22 Bookmarks Show all steps: ON
Comment
Walkthrough
Step 4 of 9 for problem
Determine generating current.
Determine apparent power delivered by source.
Thus, the average power delivered by source is,
Thus, the reactive power delivered by source is, .
Comments (1)
Step 5 of 9
(b)
Calculate the current, .
Power delivered to resistor.
Comment
https://www.chegg.com/homework-help/Electric-Circuits-10th-edition-chapter-10-problem-20P-solution-9780133760033 2/5
30/07/2021 Solved: Chapter 10 Problem 20P Solution | Electric Circuits 10th Edition | Chegg.com
Textbook Solutions Expert Q&A
Step 6 of 9
Practice
Power delivered
Chapter to 10, Problem
resistor.20P 22 Bookmarks Show all steps: ON
Total power delivered is,
Walkthrough
for problem
Thus, the power delivered by the source is equal to power absorbed by the circuit.
Comment
Step 7 of 9
(c)
Determine current passing through the capacitive reactance.
Comment
Step 8 of 9
Reactive power absorbed by the capacitor.
Comments (1)
Step 9 of 9
Reactive power absorbed by the inductor.
https://www.chegg.com/homework-help/Electric-Circuits-10th-edition-chapter-10-problem-20P-solution-9780133760033 3/5
30/07/2021 Solved: Chapter 10 Problem 20P Solution | Electric Circuits 10th Edition | Chegg.com
Textbook Solutions Expert Q&A Practice
Chapter 10, Problem 20P 22 Bookmarks Show all steps: ON
Thus, reactive power delivered by the source is equal to reactive power absorbed by the circuit.
Comment
Walkthrough
for problem
...