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Structural Dynamics and Earthquake Engineering - CE6701

Structural dynamics of earthquake engineering by S. Rajasekaran


-> Introduction to Dynamics
-> Free vibration of single degree of freedom systems (undamped) in relation to structural dynamics during earthquakes
-> Free vibration of single-degree-of-freedom systems(under-damped)
-> Forced vibration (harmonic force) of single-degree-of-freedom systems
-> Response of structures to periodic dynamic loadings
-> Response of structures to impulsive loads
-> Dynamic response of structures using numerical methods
-> Response to base excitation
-> Generalized coordinates and energy methods
-> Two-degrees-of-freedom linear system response of structures
-> Free vibration of multiple degrees of freedom
-> Numerical solution methods for natural frequencies and mode shapes
-> Time history response by mode superposition
-> Free and forced vibration of a continuous system
-> Finite element method
-> Differential quadrature and transformation methods for vibration problems
-> Earthquake and earthquake ground motion
-> Earthquake
-> Plate tectonic theory
-> Earth’s crust: Faults
-> Elastic rebound theory
-> Seismic waves
-> Earthquake Measuring instruments
-> Earthquake intensity and magnitude
-> Basic difference: magnitude versus intensity
-> Earthquake ground motion
-> Earthquake classification
-> Asian tsunami disaster
-> Earthquake response spectra
-> Importance of response quantities
-> Response spectrum concept, Pseudo-velocity spectrum
-> Pseudo-spectral acceleration
-> Velestos and Newmark spectra
-> How the response spectrum is constructed
-> Elastic design spectrum
-> Response spectrum characteristics
-> Response spectra
-> Estimating the ground motion
-> Seismic analysis and design verification
-> Inelastic response spectra
-> Application of inelastic design spectrum
-> Earthquake analysis of linear systems
-> Lumped mass system: shear building
-> Modal response contribution using Chopra’s method
-> Modal response of Earthquake analysis of linear systems
-> Spectrum analysis by modal response
-> Effective modal mass and modal height
-> Building codes for aseismic design
-> Codal provisions for seismic design
-> Comparison of codes for seismic design
-> Design examples using IS1893 2002
-> Response of structures to earthquakes: approximate analysis techniques for lateral loads
-> Zero moment point method
-> Approximate methods of analysis of multi-bay frames
-> Response of structures to earthquakes: analysis of shear walls
-> Shear wall frame
-> Coupled shear walls

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