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Electrical Engineering
Circuit Analysis and Design
1. Fundamentals of Electric Circuits
2. Resistive Circuit Analysis
3. Systematic Circuit Analysis Methods
4. Circuit Theorems and Network Analysis
5. Operational Amplifiers
6. Energy Storage Elements and Transient Analysis
7. Sinusoidal Steady-State Analysis
8. AC Power Analysis
9. Frequency Response and Resonance
10. Filter Circuits
11. Magnetically Coupled Circuits
12. Two-Port Network Analysis
13. Circuit Design Fundamentals
Resistive Circuit Analysis
Series and Parallel Combinations
Resistors in Series
Equivalent Resistance Calculation
Voltage Distribution
Current Characteristics
Resistors in Parallel
Equivalent Resistance Calculation
Current Distribution
Voltage Characteristics
Mixed Series-Parallel Combinations
Step-by-Step Reduction Methods
Complex Network Simplification
Voltage and Current Division
Voltage Divider Rule
Derivation and Application
Loading Effects
Practical Considerations
Current Divider Rule
Derivation and Application
Extension to Multiple Branches
Network Transformations
Wye-Delta Transformations
Wye to Delta Conversion
Delta to Wye Conversion
Applications in Circuit Simplification
Source Transformations
Voltage Source to Current Source
Current Source to Voltage Source
Equivalence Conditions
Circuits with Dependent Sources
Identifying Dependent Sources
Analysis Techniques
Control Variable Identification
Special Considerations
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1. Fundamentals of Electric Circuits
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3. Systematic Circuit Analysis Methods