Structural Dynamics and Earthquake Engineering
( 24 Modules )

Module #1
Introduction to Structural Dynamics
Overview of structural dynamics, importance of earthquake engineering, and course objectives

Module #2
Basic Principles of Dynamics
Review of mechanical vibration, kinematics, and kinetics

Module #3
Single-Degree-of-Freedom Systems
Free and forced vibration of SDOF systems, damping, and frequency response

Module #4
Multi-Degree-of-Freedom Systems
Vibration of MDOF systems, modal analysis, and eigenvalue problems

Module #5
Structural Response to Dynamic Loads
Dynamic response of structures to wind, earthquake, and other loads

Module #6
Earthquake Ground Motions
Characteristics of earthquake ground motions, magnitude, intensity, and frequency content

Module #7
Seismic Hazard Analysis
Probabilistic seismic hazard analysis, seismic zoning, and seismic risk assessment

Module #8
Introduction to Earthquake Engineering
Overview of earthquake engineering, seismic design philosophies, and performance-based design

Module #9
Seismic Design Criteria
Seismic design criteria, load combinations, and design basis earthquakes

Module #10
Structural Analysis for Seismic Design
Linear and nonlinear static and dynamic analysis for seismic design

Module #11
Seismic Response of Steel Structures
Seismic design and response of steel buildings, bridges, and other structures

Module #12
Seismic Response of Concrete Structures
Seismic design and response of concrete buildings, bridges, and other structures

Module #13
Seismic Response of Composite Structures
Seismic design and response of composite steel-concrete structures

Module #14
Foundation and Soil-Structure Interaction
Seismic design of foundations, soil-structure interaction, and liquefaction

Module #15
Seismic Isolation and Energy Dissipation
Seismic isolation systems, energy dissipation devices, and hybrid systems

Module #16
Seismic Retrofitting and Strengthening
Seismic retrofitting and strengthening of existing structures, techniques, and materials

Module #17
Performance-Based Design and Assessment
Performance-based seismic design, assessment, and evaluation of structures

Module #18
Earthquake-Resistant Design of Non-Structural Components
Seismic design of non-structural components, such as equipment, piping, and architectural components

Module #19
Experimental Methods in Earthquake Engineering
Experimental techniques, such as shaking tables, and model testing

Module #20
Computational Methods in Earthquake Engineering
Numerical methods, such as FEM, and simulation techniques

Module #21
Case Studies in Earthquake Engineering
Real-world examples and case studies of earthquake-resistant design and construction

Module #22
Codes and Standards in Earthquake Engineering
Overview of international codes and standards for earthquake engineering, such as ASCE, IBC, and EC8

Module #23
Sustainability and Resilience in Earthquake Engineering
Sustainable and resilient design principles, and post-earthquake recovery

Module #24
Course Wrap-Up & Conclusion
Planning next steps in Structural Dynamics and Earthquake Engineering career

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Structural Dynamics and Earthquake Engineering ( 24 Modules )

Structural Dynamics and Earthquake Engineering
( 24 Modules )