44 Basic Calculation for AC Electrical Circuit
Chapter 4: INDUCTOR (L) Circuit
Question 1
a. = 2 = 2 (60)(0.8) = 301.59Ω
b. = 331.58
Question 2
a. = 2 = 2 (50)(40 ) = 12.57Ω
b. = 19.09
Question 3
= = 3 = 12.5 Ω , = 33.16µ
240
Basic Calculation for AC Electrical Circuit 45
Chapter 5: CAPACITOR (C) CIRCUIT
Question 1
a. = 1.59Ω
b. = 62.89
Question 2
a. = 1 = 1 = 31.83Ω
2 2 (50)(100 )
b. = 7.54
Question 3
= 8.33 Ω, = 0.318
46 Basic Calculation for AC Electrical Circuit
Chapter 6: COMBINATION RLC SERIES CIRCUIT
Question 1
a. = 188.50Ω
b. = 0.80Ω
c. = 10 + 187.7Ω @ = 187.97∠86.950Ω
d. = 0.64∠ − 86.950
e. = 121.64∠3.050
Question 2
a. = 37.70Ω
b. = 13.26Ω
c. = 10 + 24.44Ω@ = 26.41∠67.750Ω
d. = 4.54∠ − 67.750
e. = 60.20∠−157.750
Question 3
a. = 6.52 + 7.75Ω
b. = 11.84∠ − 49.910
c. 1 = 71.04∠−4.910 V
vi Basic Calculation for AC Electrical Circuit
BIBLIOGRAPHY
Alexander, C., & Sadiku, M. (2016). Fundamentals of Electric Circuits (6th
ed.). Mc Graw Hill Education.
Allan H Robbins, & Miller, W. C. (2013). Circuit Analysis - Theory and Practice
(3rd ed.). Cengage Learning.
Bird, C. M. eld J., Bolton, M. A. L. W., Sueker, A. L. R. S. K., Moura, T. W. M.
T. L., & Warne, I. D. W. K. A. B. D. (2008). Electrical Engineering Know
It All. Newnes.
Bird, J. (2007). Electrical Circuit Theory and Technology. Routledge.
doi:10.4324/9780080549798
Chapman, S. J. (2002). Electric Machinery and Power System Fundamentals.
Mc Graw Hill.
Schultz, M. E. (2010). Grob ’ s Basic Electronics (11th ed.). Maney Publishing
Education.
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