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Preface
Chapter 1: Engineering Math
1.1 Methodical Reasoning
1.2 Accuracy
1.3 SI Units
1.4 Mathematical Models
1.5 Differentiation and Integration
1.6 Signals
Chapter 2: Engineering Math: Vectors, Matrices, and Fields
2.1 Scalars and Vectors
2.2 Fields
2.3 Complex Numbers
2.4 Transformations
2.5 Matrices
Chapter 3: Experimental Concepts
3.1 Scientific Method
3.2 Statistical Analysis
3.3 Physics of Electricity
3.4 Physics of Magnets
3.5 Physics of Electromagnetic
3.6 Experiment and Testing Techniques
3.7 Applications to Quality Assurance
Chapter 4: Circuit Analysis
4.1 DC Circuits
4.2 Network Theorems
4.3 AC Steady-State Analysis
4.4 Frequency Response
4.5 Transient Response
Chapter 5: Motor/Generators --- Power Systems
5.1 Magnetic Circuits
5.2 Transformers
5.3 Electromechanical Concepts
5.4 Motor Types
5.5 Generator Types
5.6 Three-Phase Power Systems
Chapter 6: Electromagnetic Waves
6.1 Wave Propagation in Space
6.2 Antenna Theory
6.3 Transmission Lines
6.4 Wave guides
6.5 Light guides
6.6 Applications
Chapter 7: Transforms
7.1 Phasors
7.2 Fourier Analysis
7.3 Fourier Transform
7.4 Laplace Transform
7.5 Applications
Chapter 8: Bandpass Filters
8.1 Passive Filters
8.2 Op-Amps
8.3 Active Filters
8.4 Multiple-Feedback
8.5 Time Delay and Phase Characteristics
8.6 Applications
Chapter 9: Optical Processing
9.1 Diffraction
9.2 Lenses
9.3 Fourier Transform
9.4 Spacial filtering
9.5 Scanning
9.6 Synthetic Aperture
9.7 Applications
Chapter 10: Digital Signal Processing
10.1 Discrete-Time Signals
10.2 Analog-to-Digital Conversion
10.3 Digital Filters
10.4 Z-Transforms
10.5 Arithmetic Hardware
10.6 Applications
Chapter 11: Computer Simulation
11.1 DC Analysis
11.2 AC Analysis
11.3 Transient Response
11.4 Circuit Descriptions
11.5 Sources
11.6 Elements
11.7 Models