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Engineering
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
4.
Circuit Theorems and Network Analysis
4.1.
Linearity and Superposition
4.1.1.
Linearity Property
4.1.1.1.
Definition and Mathematical Basis
4.1.1.2.
Conditions for Linearity
4.1.1.3.
Homogeneity and Additivity
4.1.2.
Superposition Theorem
4.1.2.1.
Statement and Theoretical Foundation
4.1.2.2.
Step-by-Step Application Procedure
4.1.2.3.
Limitations and Restrictions
4.1.2.4.
Power Calculations and Superposition
4.2.
Equivalent Circuit Theorems
4.2.1.
Thevenin's Theorem
4.2.1.1.
Statement and Theoretical Basis
4.2.1.2.
Finding Thevenin Equivalent Voltage
4.2.1.3.
Finding Thevenin Equivalent Resistance
4.2.1.4.
Application Examples and Procedures
4.2.1.5.
Limitations and Special Cases
4.2.2.
Norton's Theorem
4.2.2.1.
Statement and Theoretical Basis
4.2.2.2.
Finding Norton Equivalent Current
4.2.2.3.
Finding Norton Equivalent Resistance
4.2.2.4.
Application Examples and Procedures
4.2.2.5.
Thevenin-Norton Equivalence
4.2.3.
Maximum Power Transfer Theorem
4.2.3.1.
Statement and Mathematical Derivation
4.2.3.2.
Conditions for Maximum Power Transfer
4.2.3.3.
Load Resistance Optimization
4.2.3.4.
Efficiency Considerations
4.2.3.5.
Applications in Practical Circuits
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5. Operational Amplifiers