Module 5 (CE-409: Introduction to Structural Dynamics and Earthquake Engineering)
Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction...
Transcript of Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction...
CIVIL ENGINEERING DEPARTMENT
Introduction to EarthquakeEngineering
Done by :
Yousef Al Mashaqbah .
Outlines
• Introduction to earthquake engineering
• Introduction to earthquake seismology
• Dynamics of structures – linear analysis
• Dynamics of structures – nonlinear analysis
• Ductility and nonlinear behavior
• Design response spectra (UBC & IBC)
• Method of analysis – Force based
(equivalent lateral force)
• beam, column and joint design issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues
Dynamics of structures
•Introduction
to earthquake
engineering
•Introduction
to earthquake
seismology
•linear analysis
•nonlinear
analysis
•Ductility and
nonlinear
behavior
•Design
response
spectra (UBC
& IBC)
•Method of
analysis – Force
based
(equivalent
lateral force)
•beam, column
and joint design
issues