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An “extraordinary guide to the hidden secrets of modern man-made miracles . . . Highly recommended” —from the author of Froth!: The Science of Beer (Midwest Book Review). Ever wonder how a graceful and slender bridge can support enormous loads over truly astonishing spans? Why domes and free-standing arches survive earthquakes that flatten the rest of a city? Physicist Mark Denny looks at the large structures around us—tall buildings, long bridges, and big dams—and explains how they were designed and built and why they sometimes collapse, topple, or burst. Denny uses clear, accessible language to explain the physics behind such iconic structures as the Parthenon, the Eiffel Tower, the Forth Rail Bridge in Edinburgh, and Hoover Dam. His friendly approach allows readers to appreciate the core principles that keep these engineering marvels upright without having to master complex mathematical equations. Employing history, humor, and simple physics to consider such topics as when to use screws or nails, what trusses are, why iron beams are often I-shaped, and why medieval cathedrals have buttresses, Denny succeeds once again in making physics fun. Praise for Mark Denny “Denny’s wry humor is fun to read and made me laugh out loud.” —Mark Kidger, author of Astronomical Enigmas “Denny largely sheds the complexity of mathematical constructs, distilling their most salient features into a more qualitative understanding of radar and sonar systems.” —Choice “Indeed, Denny’s writing is anything but dry and boring. He adeptly explains complex subject matter and does so with relatively simple language and minimal use of symbolic notation.” —Bat Research News
Shows how to make and test a range of strong shapes, from triangles and trusses to bridges and domes. There are ideas for making collapsible structures, protective packaging, pop-ups and more.
From the Ancient Pyramids to the Eiffel Tower, get ready to take a close-up look at some awesome man-made structures. This unique, interactive book not only traces the history of the world’s most impressive, man-made mega structures from ancient times to the modern age, but also explores the science behind these incredible engineering feats. Discover the science of architecture behind different types of super structures, including bridges, domes and towers, then use this knowledge to have ago at creating your own from the model kit! Using card pieces, plastic connectors and string, you can make the different types of constructions – including an Egyptian pyramid, the Golden Gate Bridge and the Eiffel Tower - and then conduct tests to see how they work!
Showcases the most ambitious, awe-inspiring and advanced engineered structures of the last 100 years.
A How-To Guide for Bridge Engineers and Designers Highway Bridge Superstructure Engineering: LRFD Approaches to Design and Analysis provides a detailed discussion of traditional structural design perspectives, and serves as a state-of-the-art resource on the latest design and analysis of highway bridge superstructures. This book is applicable to highway bridges of all construction and material types, and is based on the load and resistance factor design (LRFD) philosophy. It discusses the theory of probability (with an explanation leading to the calibration process and reliability), and includes fully solved design examples of steel, reinforced and prestressed concrete bridge superstructures. It also contains step-by-step calculations for determining the distribution factors for several different types of bridge superstructures (which form the basis of load and resistance design specifications) and can be found in the AASHTO LRFD Bridge Design Specifications. Fully Realize the Basis and Significance of LRFD Specifications Divided into six chapters, this instructive text: Introduces bridge engineering as a discipline of structural design Describes numerous types of highway bridge superstructures systems Presents a detailed discussion of various types of loads that act on bridge superstructures and substructures Discusses the methods of analyses of highway bridge superstructures Includes a detailed discussion of reinforced and prestressed concrete bridges, and slab-steel girder bridges Highway Bridge Superstructure Engineering: LRFD Approaches to Design and Analysis can be used for teaching highway bridge design courses to undergraduate- and graduate-level classes, and as an excellent resource for practicing engineers.
Cubes, triangular prisms, nano-acorn, nano-centipedes, nanoshells, nano-whiskers. . . . Now that we can create nanoparticles in a wide variety of shapes and morphologies, comes the next challenge: finding ways to organize this collection of particles into larger and more complex systems. Nanoparticle Assemblies and Superstructures, edit
Draw 50 Buildings and Other Structures teaches aspiring artists how to draw with ease by following simple, step-by-step instructions. Celebrated author Lee J. Ames shows readers how to draw famous structures from all over the world, as well as an igloo, a barn and silo, a windmill, and even a teepee. Ames's illustration style and renowned drawing method has made him a leader in the step-by-step drawing manual, and the 31 books in his Draw 50 series have sold more than three million copies. Ames's instruction allows seasoned artists to refine their technique and guides amateurs to develop their own artistic abilities. Even the youngest artists can draw the tallest, grandest structures. It's easy to construct any type of building when it's done the Draw 50 way.
Story loves structure...and so do readers! Super Structure represents over two decades of research on what makes a novel or screenplay entertaining, commercial, original, and irresistible. Contrary to what some may think, structure is not a nasty inhibitor of creativity. Quite the opposite. Properly understood and utilized, structure is what translates story into a form readers are wired to receive it. And it is only when readers truly connect with your story that they turn from casual readers into fans. The material in this book greatly expands upon the chapter on structure in Write Your Novel From the Middle. Super Structure can be considered a companion to that book, but it also stands alone in its treatment of the elements of a solid and pleasing plot. Here's more good news: Super Structure will work for any type of writer--those who like to outline, those who just fly by "the seat of the pants," and those who do a little of both. That's because Super Structure stresses the concept of "signpost scenes." There are fourteen signpost scenes, or beats, that can be used to create an entire plot, the skeleton of an idea, or a map to help you figure out what to write next. Every signpost is given its own chapter and explanation, along with a section called "Helpful Hints for Plotters and Pantsers," showing you how to apply what you've learned and adapt it to your own style of writing. Never write a weak novel or screenplay again. Super Structure is a proven foundation that never fails. It frees you to add your original voice and vision, all of which adds up to bestselling fiction and hit screenplays. "I need three things before I tackle a new novel: Diet Coke, a laptop, and my dog-eared copies of James Scott Bell's books on writing craft!"- Kami Garcia, #1 NY Times & International Bestselling author
The book presents new technologies for easy and economical construction of light concrete structures saving materials and CO2. The new super-light technology allows a designer to place forces, where it is optimal, and save material everywhere else. The book also supports this “Direct Engineering” principle with a number of new details and structural principles. The new pearl-chain technology makes it possible to design optimal shapes such as arches, vaults, cupolas, floating tunnels, and shells etc. from inexpensive, and mass-produced components. The new super-light deck-elements presented in the book are now produced in six factories in Denmark, Finland, and USA, and the number is increasing. The book will be of interest for all structural engineers, who would like to save materials, CO2 and optimize their structures, for students learning about the new technologies, and for contractors and architects, who want to investigate new building technologies.
"The structural designs that occur in nature - in molecules, in crystals, in living cells - appear in this fully illustrated book as a source of inspiration and study of design of man-made structures" -- BOOK JACKET.