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This book describes the complete panorama of supporting structures and their function by describing how loads are sustained and transmitted to the ground. With a minimum of mathematics, the reader is guided through the analysis of some of the world's most famous designs and structures from a civil-engineering perspective. An intuitive approach is taken - the basics of equilibrium analysis are explained by visualizing the internal forces of specific structures with the aid of simple graphical tools. Ideal for anyone who needs an intuitive and practical approach to the design and appropriate sizing of load-bearing structures.
Before structural mechanics became the common language of structural engineers, buildings were built based on observed behavior, with every new solution incurring high levels of risk. Today, the pendulum has swung in the other direction. The web of structural mechanics is so finely woven that it hides the role of experience in design, again leading to high levels of risk. Understanding Structures brings the art and science of structures into the environment of a computer game. The book imparts a basic understanding of how buildings and bridges resist gravity, wind, and earthquake loads. Its interactive presentation of topics spans elementary concepts of force in trusses to bending of beams and the response of multistory, multi-bay frames. Formulate Graphical and Quantitative Solutions with GOYA The companion software, GOYA, runs easily on any java-enabled system. This interactive learning environment allows engineers to obtain quick and instructive graphical and quantitative solutions to many problems in structures. Simulation is critical to the design and construction of safe structures. Using GOYA and the tools within Understanding Structures, engineers can enhance their overall understanding of structure response as well as expedite the process of safe structure design.
This book focuses on the changes made in building science and practice by the advent of computers. It explains many more tools now available in the contemporary engineering environment. The book discusses the more commonly used topics of structural failure, cable-nets and fabric structures, and topics of non-linear analysis. Problems with solutions are provided. - Focusses on the changes made in building science and practice by the advent of computers - Discusses structural failure, cable-nets and fabric structures, and topics of non-linear analysis - Chapters discuss statically determinate and indeterminate structures, deflections of structures and provides solutions to problems
Introducing Structures: A Textbook for Students of Civil and Structural Engineering, Building, and Architecture focuses on the processes of designing structures for particular functions, taking into consideration the structural integrity of such structures. The textbook first offers information on structural materials and structural action of cables and arches, including statically determinate and indeterminate structures, cable or chain structures, and arches. The book then takes a look at the structural integrity of trusses and beams and other topics, such as collapse; flow of stress; flexural instability; prestressing; and plates, shells, and cable structures. The publication examines the structural composition of multi-story buildings, including foundations and general observations on structural action. The book then takes a look at structural design and structural failures and their lessons. Firmness, loads, strength, and task of designers are underscored. The textbook is a fine reference for civil and structural engineering and architecture students.
This comprehensive volume presents a wide spectrum of information about the design, analysis and manufacturing of aerospace structures and materials. Readers will find an interesting compilation of reviews covering several topics such as structural dynamics and impact simulation, acoustic and vibration testing and analysis, fatigue analysis and life optimization, reversing design methodology, non-destructive evaluation, remotely piloted helicopters, surface enhancement of aerospace alloys, manufacturing of metal matrix composites, applications of carbon nanotubes in aircraft material design, carbon fiber reinforcements, variable stiffness composites, aircraft material selection, and much more. This volume is a key reference for graduates undertaking advanced courses in materials science and aeronautical engineering as well as researchers and professional engineers seeking to increase their understanding of aircraft material selection and design.
Analysis of Structures offers an original way of introducing engineering students to the subject of stress and deformation analysis of solid objects, and helps them become more familiar with how numerical methods such as the finite element method are used in industry. Eisley and Waas secure for the reader a thorough understanding of the basic numerical skills and insight into interpreting the results these methods can generate. Throughout the text, they include analytical development alongside the computational equivalent, providing the student with the understanding that is necessary to interpret and use the solutions that are obtained using software based on the finite element method. They then extend these methods to the analysis of solid and structural components that are used in modern aerospace, mechanical and civil engineering applications. Analysis of Structures is accompanied by a book companion website www.wiley.com/go/waas housing exercises and examples that use modern software which generates color contour plots of deformation and internal stress.It offers invaluable guidance and understanding to senior level and graduate students studying courses in stress and deformation analysis as part of aerospace, mechanical and civil engineering degrees as well as to practicing engineers who want to re-train or re-engineer their set of analysis tools for contemporary stress and deformation analysis of solids and structures. Provides a fresh, practical perspective to the teaching of structural analysis using numerical methods for obtaining answers to real engineering applications Proposes a new way of introducing students to the subject of stress and deformation analysis of solid objects that are used in a wide variety of contemporary engineering applications Casts axial, torsional and bending deformations of thin walled objects in a framework that is closely amenable to the methods by which modern stress analysis software operates.
This self-contained text covers sets and numbers, elements of set theory, real numbers, the theory of groups, group isomorphism and homomorphism, theory of rings, and polynomial rings. 1969 edition.
Introduction -- Array-based lists -- Linked lists -- Skiplists -- Hash tables -- Binary trees -- Random binary search trees -- Scapegoat trees -- Red-black trees -- Heaps -- Sorting algorithms -- Graphs -- Data structures for integers -- External memory searching.