CE3006 Dynamics and Earthquake Resistant Structures

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Important questions 
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UNIT I

1. Idealization of structure as Single Degree of Freedom (SDOF) 
2. D'Alemberts Principles
3. Formulation of equation of motion for SDOF system and MDOF system , Evaluation of natural frequencies and modes , Effect of damping.

UNIT 2  

PART C EXPECTED FROM THIS UNIT

1. Seismic hazard Earthquake phenomenon Seismotectonics 
2. Characteristics of Strong Earthquake motion
3. Estimation of Earthquake Parameters, Seismic zone map.

UNIT III

1. Effect of architectural features on behavior of structures 
2. Hysteretic Behaviour of RCC, steel and prestressed concrete Pinching Effect 
3. Bouchinger Effects , P-delta effect storey drift , Behavior of brick masonry,stone masonry structures under past earthquakes

UNIT IV

1. Different methods of earthquake analysis,Analysis of structure by Equivalent static method
2.  Analysis of structure by Response spectrum method 

UNIT V

1. Earthquake resistant design Planning considerations and Architectural concepts -
2. Design and detailing as per codal provisions Design and detailing of typical flexural member and column member
3. Seismic isolation  Principals and methods

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**Very important questions are bolded and may be asked based on this topic

PART-C

1.Compulsory Questions {a case study where the student will have to read and analyse the subject }

mostly asked from unit 2, 5(OR) a situation given and you have to answer on your own

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INTRODUCTION TO DYNAMICS

Dynamics Degree of freedom - Free and forced vibration - Idealization of structure as Single

Degree of Freedom (SDOF) and Multi degree of freedom (MDOF) system - D'Alemberts Principles

- Formulation of equation of motion for SDOF system and MDOF system - Evaluation of natural

frequencies and modes - Effect of damping.

UNIT II

SEISMOLOGY

Elements of Engineering Seismology - Seismic hazard Earthquake phenomenon

Seismotectonics - Seismic Instrumentation Characteristics of Strong Earthquake motion

Estimation of Earthquake Parameters - Soil Structure Interaction - Liquefaction of soil - Seismic

zone map - Response spectra.

UNIT III EARTHQUAKE EFFECTS ON STRUCTURES

Inertia force on structures - load transfer path - Effect of architectural features on behavior of

structures - Hysteretic Behaviour of RCC, steel and prestressed concrete Pinching Effect -

Bouchinger Effects - Energy dissipation - P-delta effect storey drift - Behavior of brick masonry,

stone masonry and reinforced concrete structures under past earthquakes-typical failures - Causes

of damage - Lessons learnt from past earthquakes.

UNIT IV

EARTHQUAKE LOAD ANALYSIS

Design spectra-Codal provision - Different methods of earthquake analysis-Analysis of structure

by Equivalent static method - Analysis of structure by Response spectrum method - Introduction to

time-history method of analysis

UNIT V

EARTHQUAKE RESISTANT DESIGN

Philosophy of earthquake resistant design Planning considerations and Architectural concepts -

Design and detailing as per codal provisions Design and detailing of typical flexural member and

column member, Ductile detailing of beam-column joints and footing-Concept and principle of shear

wall - Introduction to performance based seismic design - Seismic isolation 

Principals and methods