Products related to Structures:
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Tensegrity Structures Design Methods
Tensegrity structures are pre-stressed systems of cables and bars in which no bar is connected to the other and the structure has no continuous rigid skeleton.This general introduction presents an original general method for the design of tensegrity structures, the first configurations of which were found by trial and error. The book begins with two-dimensional tensegrity structures, particularly tensegrity nets, tensegrity chains, tensegrity rings and tensegrity arches.These are then developed to original configurations of spatial tensegrity structures such as tensegrity slabs, primitive spatial tensegrity arches, and primitive tensegrity domes, as well as more elaborate spatial tensegrity structures such as tensegrity cylindrical shells, slim tensegrity domes, tensegrity vaults, and tensegrity caps. Presents a robust new approach to the design of tensegrity structuresExtends tensegrity structures to new three-dimensional configurationsTensegrity Structures Design Methods suits structural, civil, and mechanical engineers and architects, as well as graduate students. Oren Vilnay is Professor Emeritus and was founder and head of the Department of Structural Engineering at Ben Gurion University Israel.He is also former head of the Structural Engineering Section at Technion—IsraelInstitute of Technology.Leon Chernin is Lecturer at the University of Dundee.He was granted a PhD in Structural Engineering from the Technion—Israel Institute of Technology.His research activities encompass both physical testing and numerical modelling.
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Fire-Resistant Design of Structures
This book addresses the detailed analysis and design of structures under fire loads through the basic concepts.While fire and explosion characteristics of materials are discussed in detail, an estimate of fire load and integration to fire-resistant design is the main focus.The detailed design procedures include practical examples of various design codes from around the world.The scope of Fire-Resistant Design of Structures includes discussions related to the estimate of fire loads, analysis and design of structural members under fire, fire protection and firefighting systems, working principles, and suitability for various industrial applications.It provides comprehensive coverage regarding the analysis and design of structural systems under fire loads, in particular, and under elevated temperatures, in general. Features:Provides an understanding of fire loads, analysis, and design of various structural membersIncludes detailed design methods and model studiesCovers in detail different types of firefighting equipment and their functions and applications
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Structures
David Friesen's latest album "Structures" is like a musical symphony of unexpected twists and turns. The veteran jazz musician takes listeners on a rollercoaster ride of emotions, blending intricate melodies with powerful rhythms. From the opening track, "Cityscape," Friesen sets the tone for the album with his masterful bass skills and unique improvisational style. Each song on "Structures" feels like a journey through a different musical landscape, with Friesen guiding the way with his signature sound. Tracks like "Cascading Thoughts" showcase Friesen's ability to seamlessly weave together complex harmonies and rhythms, while "Echoes of Tomorrow" takes listeners on a dreamy, introspective journey. Throughout the album, Friesen demonstrates his versatility as a musician, seamlessly switching between genres and styles. From the moody, introspective ballads to the funky, upbeat grooves, "Structures" offers something for every listener. Overall, "Structures" is a testament to Friesen's talent and experience in the music industry. With each track, he proves why he is a force to be reckoned with in the jazz world. So, sit back, relax, and let David Friesen take you on a musical adventure you won't soon forget.
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Structures and Construction in Historic Building Conservation
This book is the second in a series of volumes that combine conservation philosophy in the built environment with knowledge of traditional materials, and structural and constructional conservation techniques and technology: Understanding Historic Building ConservationStructures & Construction in Historic Building ConservationMaterials & Skills for Historic Building Conservation The series aims to introduce each aspect of conservation and to provide concise, basic and up-to-date knowledge for architects, surveyors and engineers as well as for commissioning client bodies, managers and advisors. In each book, Michael Forsyth draws together chapters by leading architects, structural engineers and related professionals to reflect the interdisciplinary nature of conservation work.The books are structured to be of direct practical application, taking the reader through the process of historic building conservation and emphasising throughout the integrative teamwork involved. This present volume – Structures & Construction in Historic Building Conservation - traces the history of structures in various materials and contains guidance on the survey, assessment and diagnosis of structures and the integration of building code requirements within the historic fabric. It discusses conservation engineering philosophy, exposes the conflict between building codes and conservation legislation, and offers solutions.Leading-edge, on-site metric survey techniques are described and a range of structural advice is given, including methods of repair in relation to philosophical principles.Causes of induced movement in historic buildings are explained, together with basic soil mechanics and the assessment and diagnosis of structural failure.Chapters also cover the conservation of different types of construction: masonry, iron and steel, and concrete and reinforced concrete. Fourteen chapters written by the experts present today's key issues in structures and construction for historic building conservation: Bill Blake, Michael Bussell, David Cook, Dina F.D'Ayala, Steve Emery, Michael Forsyth, Ian Hume, Peter Norris
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Why are resonance structures called mesomeric structures?
Resonance structures are called mesomeric structures because they represent different possible arrangements of electrons within a molecule that are intermediate between distinct Lewis structures. The term "mesomeric" comes from the Greek word "meso," meaning middle or intermediate, reflecting the fact that resonance structures are not separate entities but rather different representations of the same molecule. These structures help to explain the delocalization of electrons in molecules and the resulting stabilization of the overall structure.
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What are discrete structures?
Discrete structures are mathematical structures that deal with distinct, separate values rather than continuous ones. They are used to represent objects that can be counted individually, such as integers, graphs, sets, and sequences. Discrete structures are fundamental in computer science and are used to solve problems related to algorithms, data structures, and combinatorics. They provide a framework for analyzing and solving problems in a precise and logical manner.
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What are cell structures?
Cell structures are the various components that make up a cell and carry out specific functions. These structures include the cell membrane, nucleus, cytoplasm, mitochondria, endoplasmic reticulum, Golgi apparatus, and more. Each structure plays a vital role in maintaining the cell's overall function and health. Together, these structures work in harmony to ensure the cell can carry out its necessary processes for survival and reproduction.
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What are double structures?
Double structures are a linguistic phenomenon where two words or phrases are used together to convey a single meaning or idea. This can involve repeating a word with a slight variation, such as "by and large" or "safe and sound." Double structures are often used for emphasis, clarity, or to create a rhythmic effect in speech or writing. They are a common feature in many languages and can add depth and nuance to communication.
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Smooth Topological Design of Continuum Structures
Smooth Topological Design of Continuum Structures focuses on the use of a newly-proposed topology algorithm for structural optimization called Smooth-Edged Material Distribution for Optimizing Topology (SEMDOT). The book presents the basic theory of SEMDOT and explains connections between this method and the corresponding optimizers.The method is used to address the long-standing jagged edge problem facing classical topology optimization algorithms and is presented as a perfect tool for combining additive manufacturing and topology optimization, which are increasingly coupled together to produce new part designs.A range of representative case studies are also included to illustrate applications. This serves as a textbook and reference for graduate and senior undergraduate students in the area, as well as engineers in the structural optimization field.Full modifiable MATLAB codes for each chapter are available online.
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Structures by Design : Thinking, Making, Breaking
*Winner of the 2021 TAA Textbook Excellence Award*Honorable Mention of the 2021 BTES Book AwardStructures by Design: Thinking, Making, Breaking is a new type of structures textbook for architects who prefer to learn using the hands-on, creative problem-solving techniques typically found in a design studio.Instead of presenting structures as abstract concepts defined by formulas and diagrams, this book uses a project-based approach to demonstrate how a range of efficient, effective, and expressive architectural solutions can be generated, tested, and revised. Each section of the book is focused on a particular manner by which structural resistance is provided: Form (Arches and Cables), Sections (Beams, Slabs, and Columns), Vectors (Trusses and Space Frames), Surfaces (Shells and Plates), and Frames (Connections and High-Rises).The design exercises featured in each chapter use the Think, Make, Break method of reiterative design to develop and evaluate different structural options.A variety of structural design tools will be used, including the human body, physical models, historical precedents, static diagrams, traditional formulae, and advanced digital analysis.The book can be incorporated into various course curricula and studio exercises because of the flexibility of the format and range of expertise required for these explorations.More than 500 original illustrations and photos provide example solutions and inspiration for further design exploration.
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Stable Structures
D&T Workshop is a major new series of information books devised to inspire primary-age children to investigate, design and make a wide range of products using different technologies like levers, gears, cams, batteries, winding mechanisms, food technology and more.Each book explores a different set of products and the technology behind them.Pupils investigate existing products and then carry out focused practical tasks which provide opportunities to learn and practise the necessary skills, e.g. testing alternative designs, building a specific component, or learning to use tools safely.Each book ends with a full-scale design and make activity that encourages children to put into practice the skills, knowledge and understanding they have learned.
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Sedimentary Structures
Now enhanced with colour photographs and illustrations, this thoroughly revised fourth edition of Sedimentary Structures enhances its status as a major textbook in geology.Since its first publication in 1982, Sedimentary Structures has established and maintained itself as a pre-eminent resource that sets out a clear methodology and philosophy for understanding present-day sediments and sedimentary rocks as the product of dynamic processes.The fourth edition of this classic textbook introduces erosional, depositional and post-depositional sedimentary processes in an easily accessible way.It shows how sedimentary structures can be interpreted, across a wide range of scales, in terms of those processes. Sedimentary structures produced by erosion, deposition and post-depositional change are all clearly explained and related to the processes that formed them.Hydrodynamic and aerodynamic controls on the development of subaqueous and aeolian bedforms are discussed, as are the styles of deformation to which sediments can be subjected after deposition.Structures that characterize deposition caused by chemical and biologically influenced processes are explained and illustrated, along with the complex effects of chemical changes, and of animal and plant activity in modifying sediments after they have been deposited.The book ends with an introduction to the methods and principles of environmental interpretation, for which earlier chapters provide an invaluable basis.Sedimentary Structures is designed principally for use in undergraduate settings and will be invaluable to students reading geology, earth sciences, physical geography and environmental sciences throughout their degree studies.It will also appeal to enthusiastic students at colleges and schools, as well as to amateur geologists who want to gain an understanding of sedimentary processes and products.Furthermore, the book is also valuable as a reference for both academic researchers and industry professionals alike.The fourth edition covers all major recent developments in the subject.It is characterized by an abundance of informative illustrations and photographic examples, and introduces colour figures for the first time. This edition, the first prepared without the direct input of the late David Thompson, builds on a major re-write that paid particular attention to recent advances in the understanding of aeolian processes and bedforms, and in the interpretation of trace fossils.The introduction to environmental interpretation has been further developed to reflect recent advances in stratigraphic thinking, thereby enabling sedimentologists to more readily relate the occurrence of assemblages of sedimentary structures to likely environments of deposition.Sedimentary Structures emphasizes a practical, hands-on approach.It remains indispensable to those with a serious interest in the study of sedimentary structures, not only as fascinating features in themselves but also as key indicators in the reconstruction of past environments.
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What are steel structures?
Steel structures are building or construction systems that are made primarily of steel components, such as beams, columns, and trusses. These structures are known for their strength, durability, and ability to support heavy loads. Steel structures are commonly used in a wide range of applications, including industrial buildings, commercial facilities, bridges, and high-rise buildings. They offer advantages such as speed of construction, design flexibility, and resistance to fire and corrosion.
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What are architectural structures?
Architectural structures are physical constructions designed and built by architects and engineers to serve a specific purpose, such as providing shelter, support, or aesthetic appeal. These structures can include buildings, bridges, towers, and other man-made forms that are designed to withstand various forces, such as gravity, wind, and seismic activity. They are often characterized by their unique design, materials, and construction methods, and can have a significant impact on the surrounding environment and community.
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What is the procedure for drawing Lewis dot structures (valence bond structures)?
To draw a Lewis dot structure, start by determining the total number of valence electrons for the atoms in the molecule. Then, arrange the atoms in the molecule, placing the least electronegative atom in the center. Next, connect the atoms with single bonds and distribute the remaining electrons as lone pairs to satisfy the octet rule for each atom. If there are still remaining electrons, form double or triple bonds as needed to satisfy the octet rule for each atom. Finally, check that each atom has a full octet of electrons, except for hydrogen, which only needs two electrons.
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Is Lewis structures written correctly?
Yes, Lewis structures are typically written correctly when they follow the rules of drawing Lewis diagrams. These rules include correctly counting the total number of valence electrons, placing the least electronegative atom in the center, and ensuring that each atom has a full octet (or duet for hydrogen) of electrons. Additionally, the structure should accurately represent the bonding and lone pairs of electrons in the molecule.
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