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Seismology and Earthquake Engineering
1. Introduction to Seismology and Earthquake Engineering
2. Fundamentals of Solid Earth Geophysics
3. The Earthquake Source
4. Seismic Wave Theory and Propagation
5. Seismic Instrumentation and Data Analysis
6. Global Seismicity Patterns
7. Seismic Hazard Analysis
8. Ground Motion Characteristics
9. Site Effects and Local Geology
10. Geotechnical Earthquake Hazards
11. Structural Dynamics Principles
12. Seismic Design Philosophy
13. Building Codes and Standards
14. Earthquake-Resistant Structural Systems
15. Seismic Design of Structural Elements
16. Advanced Seismic Protection Systems
17. Nonstructural Components
18. Seismic Evaluation of Existing Buildings
19. Seismic Retrofit Strategies
20. Post-Earthquake Response and Recovery
21. Tsunami Hazards
Seismic Hazard Analysis
Hazard Analysis Approaches
Deterministic Methods
Scenario Earthquake Selection
Maximum Credible Events
Ground Motion Estimation
Probabilistic Methods
Source Zone Definition
Recurrence Modeling
Logic Tree Approaches
Hazard Integration
Seismic Source Characterization
Source Zone Models
Fault-Specific Models
Background Seismicity
Maximum Magnitude Assessment
Recurrence Relationships
Gutenberg-Richter Law
Characteristic Earthquake Models
Truncated Exponential Models
Time-Dependent Models
Ground Motion Prediction
Attenuation Relationships
Ground Motion Models
Regional Adjustments
Uncertainty Quantification
Hazard Mapping
Uniform Hazard Spectra
Hazard Curves
Deaggregation Analysis
Design Ground Motions
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6. Global Seismicity Patterns
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8. Ground Motion Characteristics