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## Basics of Structural Dynamics and Aseismic Design pdf

Mass: Mass is obtained by dividing the weight on body by the acceleration of gravity. Unit of mass is given in kilograms kgs 2. Stiffness: It is defined as the force required producing unit deformation. It is an elastic property that describes the level of resisting force that results when a body undergoes change in length. Natural Period: It is defined as the time required to complete one cycle of free vibration 4.
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Published 10.01.2019

## 27. Vibration of Continuous Structures: Strings, Beams, Rods, etc.

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## Note for Structural Dynamics and Earthquake Engineering - SDEE By Biswajit Jena

Pris: kr. Hftad, Skickas inom vardagar. Basics of Structural Dynamics and Aseismic Design. Read Basics of Structural Dynamics and Aseismic..

This comprehensive and well-organized book presents the concepts and principles of earthquake resistant design of structures in an easy-to-read style. The use of these principles helps in the implementation of seismic design practice. The book adopts a step-by-step approach, starting from the fundamentals of structural dynamics to application of seismic codes in analysis and design of structures. The text also focusses on seismic evaluation and retrofitting of reinforced concrete and masonry buildings. The text has been enriched with a large number of diagrams and solved problems to reinforce the understanding of the concepts. Intended mainly as a text for undergraduate and postgraduate students of civil engineering, this text would also be of considerable benefit to practising engineers, architects, field engineers and teachers in the field of earthquake resistant design of structures. Pankaj Agarwal is the assistant professor at the department of earthquake engineering, Indian Institute of Technology, Rookie.

The main objective of a course on earthquake-resistant design of structures is to introduce students to the phenomenon of earthquakes and the process, measurements, and factors that affect the design of structures in seismic areas. This objective is achieved by understanding the fundamentals of the theory of vibrations necessary to comprehend and analyse the mutual dynamics of earthquakes and structures. The student is also familiarized with the codal provisions as well as aseismic design methodology. According to Earthquakes Today, around , earthquakes occur each year; , of these can actually be felt. The magnitude and destructive consequences of earthquakes have serious implications. The destruction and damage of constructed and natural environment and the loss and impairment of human life are of prime concern.

This objective is achieved through imparting rudiments of theory of vibrations necessary to understand and analyse the dynamic forces caused by earthquakes and structures.
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Kavitha — This book covers all the four major areas of Earthquake Engineering such as Structural Dynamics, Seismology, Seismic Analysis, Aseismic Design, including design philosophy, capacity design and codal provisions. It also provides detailed information on liquefaction of soil and effects of soil properties on response spectra. Each chapter is well-designed and well-balanced with lucid illustrations and diagrams. Numerous solved examples have been included for better comprehension of the concepts. Exercises with answers have been provided at the end of each chapter to develop problem-solving skills of the students.