1. Week
Introduction to Direct Current(DC) Circuits
Resistance, Current, Voltage and Power Concepts
Voltage Source and Current Source
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2. Week
Node, Mesh, Loop, Branch Concepts
Kirchhoff’s Voltage Law
Kirchhoff’s Current Law
Voltage Divider Rule
Current Divider Rule
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3. Week
Mesh Analysis
Nodal Analysis
Superposition
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4. Week
Thevenin-Norton Methods
Source Transformation Method
Maximum Power Transfer
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5. Week
Alternative Current(AC) Circuits
Period, Frequency Concepts
Peak, Peak-to-Peak, RMS Value Concepts
Phase, Phase Difference
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6. Week
Capacitor, Inductor
RL and RC Circuits,
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7. Week
Electrical Anologies of Mechanical Systems
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8. Week
Phasor Concept
Phasor Diagrams of RL and RC Circuits
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9. Week
Effective(RMS) Values
Complex Power
Apparent Power
Average Power
Reactive Power
Power Factor
Power Compensation
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10. Week
Magnetic Circuits
Magnetic Flux
Fringing Effect and Leakage Flux
Histeresis and Eddy Current Losses
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11. Week
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