Description:
Principles, basic laws, and theorems are used in analyzing electrical circuits in both direct current and alternating current conditions.
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Topics:
1. Definitions, Types, and Symbols of Circuit Elements, Circuit Variables, and Parameters
2. Resistance
a. Definitions
b. Factors That Affect the Resistance of a Conductor
c. Resistivity of Commonly Used Conductors
d. Resistance as a Function of Temperature
e. Conductance
3. Ohm's Law, Electrical Power, Electrical Energy
4. Heating Effect of Electric Current
5. Resistors
6. Network Reduction (Delta-to-Wye / Wye-to-Delta Transformation)
7. Maximum Power Transfer in Direct Current Circuits
8. Cell and Batteries
9. Laws, Theorems, and Methods Used in Network Analysis
a. Kirchhoff's Laws
b. Maxwell's Mesh Method
c. Superposition Theorem
d. Thevenin's Theorem
e. Norton's Theorem
10. Inductors
11. Capacitors
12. Alternating Current Circuits
a. Definition of AC
b. Nomenclature of Periodic Waves
c. Equations of Continuous Sinusoidal Current and Voltage Waves
d. Phase Angle, Phase Angle Difference, Leading Wave, Lagging Wave
e. Impedance Function
13. Voltage and Current Relationships
a. Pure Resistive Circuit
b. Pure Inductive Circuit
c. Pure Capacitive Circuit
d. Series RL Circuit
e. Series RC Circuit
f. Series RLC Circuit
14. Effective Value of AC
15. Phasor Algebra
16. Conductance, Susceptance, and Admittance of AC Circuits
17. Power Factor Correction
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