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The Taj Mahal, a majestic mausoleum in India, continues to amaze visitors with its beauty nearly 400 years after its construction. Engineering the Taj Mahal discusses the emperor behind the famous structure, the precise engineering used by the designers, and the ways in which India is preserving the mausoleum so that it can continue to impress future generations. Easy-to-read text, vivid images, and helpful back matter give readers a clear look at this subject. Features include a table of contents, infographics, a glossary, additional resources, and an index. Aligned to Common Core Standards and correlated to state standards. Core Library is an imprint of Abdo Publishing, a division of ABDO.
Recounts the history of the creation of the Taj Mahal, built as a tomb and memorial for the wife of the Mughal emperor Shah Jahan.
A landmark book for our generation, Architectural Excellence provides a unifying theory for architectural design with a decidedly non-western, culturally neutral perspective. This work addresses the controversial subject of what constitutes architectura
Agra, India - the city of the Taj Mahal. The Bureau of Archaeology (BoA) receives a bizarre petition under the Right-To-Information (RTI) Act, demanding the bureau disclose authentic historical evidence for the legend of the World Heritage monument. The bureau dumps the case on Vijay Kumar, a brilliant but maverick archaeologist, who discovers that the RTI case is not as straightforward as it sounds. Mysterious deaths and an Interpol alert make matters worse. Vijay Kumar sets off on an international pursuit to discover the truth where he can trust no one but himself. Has someone set up Vijay Kumar? Is he in danger? And above all, will he be able to unveil the truth, OR . . . will it forever remain a secret . . . Raaz? “A thrilling novel of one of the world’s wonders. Neal Nathan may well be the Dan Brown of the Indian subcontinent.” - Thierry Sagnier, author of ‘Dope’, and Pushcart Prize nominee “An absolute thriller, page-turner, memorable characters, and well researched.” - Sameer Bhide, author of ‘One Fine Day’, and Literary Titan Book Award winner “If you’re at all interested in the Taj Mahal … and who isn’t? … you will love reading this thriller and also learn its true history.” - Kenneth Korba, Richmond, Virginia
More than 650 landmarks are covered, ranging from ancient monuments such as Stonehenge, to contemporary engineering feats such as the World Trade Center in New York City. The concisely-written entries describe when the landmark was built, who built it, why it was built, its dimensions, how it was constructed, and any problems encountered during construction. Additional features include: numerous photographs; biographies of important builders and designers; glossary; chronology of dates in civil engineering from 3000 BC to the present; listings of tallest buildings, longest bridges, and highest dams, and a geographical index which locates the structures by country.
Humans are builders--we make structures to span rivers, to connect points of land, to offer shelter. Indeed, throughout history, civilizations have created structures of such immense scale, requiring such tremendous resources, that they might have been thought impossible. From the Taj Mahal to the Suez Canal, from Solomon's Temple to the Trans-Alaska Pipeline, these feats of macro-engineering are a testament to the creativity and foresight of engineers, architects, government officials, and diplomats. Who came up with the ideas for these projects? How did they see them through to completion? What obstacles--diplomatic, legal, logistical, and engineering--had to be overcome for these structures to be built? What impact did these engineering projects have on the economies and cultures of their societies? This encyclopedia answers all these questions, showing how central these great engineering projects are to the history of civilization. It includes the legal documents that launched them. Building the World comprises detailed entries on over forty of the most important engineering projects in world history, such as: Washington D.C., the Eiffel Tower, and the Channel Tunnel. The rich illustration program includes 66 photographs and 30 illustrations, maps, and drawings that document the most important structures ever built. Each entry includes a detailed history of the planning and construction of the project, and a discussion of its subsequent importance. A unique feature of the encyclopedia is an extensive primary source collection that illustrates how the decision to create such a structure came to be, demonstrating the importance of individuals in imagining, planning, and building some of the most famous engineering landmarks in the world.
This second-expanded edition of Towards A New Engineering is almost double in volume compared to the first edition, with several new chapters, new material and is more graphically oriented in order to guide readers more smoothly throughout the text. It is a collection of intimate reflections on structural engineering, its present and future. A testimony on many issues that ‘bothered’ the author during his years of designing structures. A critique and praise of built structures, structural design strategies, codes, the educational system, digital tools and much more. It’s a professional memoir dedicated to the unsung heroes of structural engineering. Not the unknown ones but the unrecognized ones. It’s an album of their thoughts and designs. This book is a rare possibility for structural engineers to consider the meaning of their profession, to meditate about it and its relation to, or distinction from, the practice of architecture. This is a collection of thoughts but not conclusions and theories. The book is recommended for all structural and architectural engineers, as well as for students of engineering and architecture, especially those who have chosen structural engineering as their lifelong profession. It is an eye-opening book that will provide a clearer, more realistic perspective while also offering an idea of where engineers will be in the future and how they should adapt to the time that comes.
With the ever-increasing developmental activities as diverse as the construction of dams, roads, tunnels, underground powerhouses and storage facilities, petroleum exploration and nuclear repositories, a more comprehensive and updated understanding of rock mass is essential for civil engineers, engineering geologists, geophysicists, and petroleum and mining engineers. Though some contents of this vast subject are included in undergraduate curriculum, there are full-fledged courses on Rock Mechanics/Rock Engineer-ing in postgraduate programmes in civil engineering and mining engineering. Much of the material presented in this book is also taught to geology and geophysics students. In addition, the book is suitable for short courses conducted for teachers, practising engineers and engineering geologists. This book, with contributions from a number of authors with expertise and vast experience in various areas of rock engineering, gives an in-depth analysis of the multidimensional aspects of the subject. The text covers a wide range of topics related to engineering behaviour of rocks and rock masses, their classifications, interpretation of geological mapping of joints through stereographic projection, in situ stress measurements, laboratory and field tests, stability of rock slopes, foundations of structures, including dams and support systems for underground excavations. The Second Edition has been enriched with new topics such as minimum overburden on pressure tunnels, pressure around vertical cylindrical shaft, thickness of steel lining, and penetration rate from joint factor. What distinguishes the text is the application of numerical methods to solve various problems by discrete element and equivalent material concepts, interpretations of geomechanics modelling test data, excavation methods, ground improving methods, and use of roadheaders and TBMs. The book provides an excellent understanding of how to solve problems in rock engineering and should immensely benefit students, teachers, professionals and designers alike.