# ECT 125 WEEK 3 HOMEWORK ASSIGNMENTS

## ECT 125 WEEK 3 HOMEWORK ASSIGNMENTS

• Submitted By: unquite
• Date Submitted: 10/08/2016 3:14 AM
• Words: 680
• Page: 3

ECT 125 WEEK 3 HOMEWORK ASSIGNMENTS
To view more, click on following link;
http://unquite.com/question-details/ECT-125-WEEK-3-HOMEWORK-ASSIGNMENTS/1868
or email us
query@unquite.com

1. ECT 125 WEEK 3 HOMEWORK ASSIGNMENTS
2. Chapter 9
3. 20) Calculate the load power for the circuit shown.
4. 12) Calculate the values of resistive and reactive power for the circuit.
5. 16) Calculate the magnitude and phase angle of apparent power for the circuit described in Problem 12.
6. 18) Calculate the component current, voltage, and power values for the circuit, Then, calculate the value of PAPP.
7. Chapter 13
8. 12) Calculate the values of resistive and reactive power for the circuit shown.
9. 14) Calculate the magnitude and phase angle of apparent power for the circuit in Problem 12.
10. 18) Determine the value of reactive power for the circuit in Problem 16.
11. 20) Calculate the impedance, current, voltage, and power values for the circuit.
12.
ECT 125 WEEK 3 HOMEWORK ASSIGNMENTS
To view more, click on following link;
http://unquite.com/question-details/ECT-125-WEEK-3-HOMEWORK-ASSIGNMENTS/1868
or email us
query@unquite.com

1. ECT 125 WEEK 3 HOMEWORK ASSIGNMENTS
2. Chapter 9
3. 20) Calculate the load power for the circuit shown.
4. 12) Calculate the values of resistive and reactive power for the circuit.
5. 16) Calculate the magnitude and phase angle of apparent power for the circuit described in Problem 12.
6. 18) Calculate the component current, voltage, and power values for the circuit, Then, calculate the value of PAPP.
7. Chapter 13
8. 12) Calculate the values of resistive and reactive power for the circuit shown.
9. 14) Calculate the magnitude and phase angle of apparent power for the circuit in Problem 12.
10. 18) Determine the value of reactive power for the circuit in Problem 16.
11. 20) Calculate the impedance, current, voltage, and power values for the circuit.
12....