Compensation
Order Description
Select one of the U.S. Federal Pay Regulations from Exhibit 17.1 on pp. 594-596. Using the CSU Online Library, conduct addodeist inonota li nrcelsuedaer cthhe o tnit loen pea ogfe t hoer rreefgeurelantcioen ps.a Ygeo.u Irn rcelusedaer icnh y poruorj ercets eshaorcuhld: be a minimum of three pages. Page count
History of the Act
Why it was created
How it influenced the area of human resources and compensation
What the future holds for the act
How it affected the employer and the employee
Do you agree with this act? Why or why not? Your paper should follow APA Guidelines and all references should be cited. Information about accessing the Blackboard Grading Rubric for this assignment is provided below.
Compensation
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Compensation
AC circuits
ELEC153 Circuit Theory II
M2A1 Textbook Assignment: Problem Set A: Chapter 15
Instructions
Save this document and place your answers into it so you can submit it to the appropriate homework dropbox. Handwritten solutions should be scanned and saved as a BMP, GIF, or JPG image, or scanned and pasted into this document.
Questions
1. Find the impedance of this AC series circuit as seen from the two open-ended terminals. Show your answer in rectangular and polar form. The AC signal frequency is 1 KHz.
2. Repeat your analysis of Question 1 for a frequency of 200 Hz.
3. Consider the following AC series circuit:
a. Find the total impedance across the voltage source in polar form.
b. Find the source current, in polar form. Note: the source voltage is 20 volts rms at 0 degrees.
c. Find the voltage across each component, in polar form.
d. Find the real power supplied to the circuit, in Watts.
ELEC153 Circuit Theory II
M2A2 Textbook Assignment: Problem Set B: Chapter 15
Instructions
Save this document and place your answers into it so you can submit it to the appropriate homework dropbox. Handwritten solutions should be scanned and saved as a BMP, GIF, or JPG image, or scanned and pasted into this document.
Questions
1. Find the impedance of this AC parallel circuit between the two open-ended terminals, in rectangular and polar forms:
2. Consider the following AC parallel circuit:
a. Find the total impedance across the voltage source in polar form.
b. Find the source current, in polar form. Note: the source voltage is 12 volts rms at 0 degrees.
c. Find the current through each component, in polar form.
d. Find the real power supplied to the circuit, in Watts.
Compensation
AC circuits
ELEC153 Circuit Theory II
M2A1 Textbook Assignment: Problem Set A: Chapter 15
Instructions
Save this document and place your answers into it so you can submit it to the appropriate homework dropbox. Handwritten solutions should be scanned and saved as a BMP, GIF, or JPG image, or scanned and pasted into this document.
Questions
1. Find the impedance of this AC series circuit as seen from the two open-ended terminals. Show your answer in rectangular and polar form. The AC signal frequency is 1 KHz.
2. Repeat your analysis of Question 1 for a frequency of 200 Hz.
3. Consider the following AC series circuit:
a. Find the total impedance across the voltage source in polar form.
b. Find the source current, in polar form. Note: the source voltage is 20 volts rms at 0 degrees.
c. Find the voltage across each component, in polar form.
d. Find the real power supplied to the circuit, in Watts.
ELEC153 Circuit Theory II
M2A2 Textbook Assignment: Problem Set B: Chapter 15
Instructions
Save this document and place your answers into it so you can submit it to the appropriate homework dropbox. Handwritten solutions should be scanned and saved as a BMP, GIF, or JPG image, or scanned and pasted into this document.
Questions
1. Find the impedance of this AC parallel circuit between the two open-ended terminals, in rectangular and polar forms:
2. Consider the following AC parallel circuit:
a. Find the total impedance across the voltage source in polar form.
b. Find the source current, in polar form. Note: the source voltage is 12 volts rms at 0 degrees.
c. Find the current through each component, in polar form.
d. Find the real power supplied to the circuit, in Watts.