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CIVIL ENGINEERING DEPARTMENT Introduction to Earthquake Engineering Done by : Yousef Al Mashaqbah .

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Page 1: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

CIVIL ENGINEERING DEPARTMENT

Introduction to EarthquakeEngineering

Done by :

Yousef Al Mashaqbah .

Page 2: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 3: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 4: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 5: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 6: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 7: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 8: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 9: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 10: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 11: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 12: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 13: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 14: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 15: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 16: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 17: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 18: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 19: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 20: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 21: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 22: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 23: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 24: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 25: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 26: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 27: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 28: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 29: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 30: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 31: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 32: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 33: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 34: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 35: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 36: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 37: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 38: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 39: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 40: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 41: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 42: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 43: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 44: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 45: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 46: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 47: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 48: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 49: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 50: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 51: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 52: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 53: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 54: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 55: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 56: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 57: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 58: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 59: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 60: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 61: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 62: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

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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

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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

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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

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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

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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

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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

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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

Page 70: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 71: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 72: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 73: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 74: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 75: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 76: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 77: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 78: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 79: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 80: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

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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

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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

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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

Page 84: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 85: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 86: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 87: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 88: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 89: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 90: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 91: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 92: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 93: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 94: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 95: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

Page 96: Introduction to Earthquake Engineering · 2020. 12. 7. · Dynamics of structures •Introduction to earthquake engineering •Introduction to earthquake seismology •linear analysis

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

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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


Introduction to Geotechnical Earthquake Engineering … · Module – 1 Introduction to Geotechnical Earthquake Engineering by Dr. Deepankar Choudhury Professor Department of Civil

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