The new science of strong materials gordon j e. The New Science of Strong Materials : J. E. Gordon : 9780140135978 2019-01-30

The new science of strong materials gordon j e Rating: 7,9/10 1464 reviews

GHS Physics: Reviews

the new science of strong materials gordon j e

Gordon's classic introduction to the properties of materials used in engineering answers some fundamental and fascinating questions about how the material world around us functions. They have found many surprises; above all, perhaps, that how a material behaves depends on how perfectly - or imperfectly - its atoms are arranged. In particular, Gordon focuses on so-called strong materials, such as metals, wood, ceramics, glass, and bone. The true test of how well someone knows their subject is the ability to make it eminently understandable. The new science of strong materials is more concerned with material composition - a mix between materials science and chemistry. This book gives a great intuitive understanding of materials science, but goes beyond that to tell us how simple structures work. The author admits the necessity of being highly selective in the materials he can discuss so broadly, but he ably presents chemical and physical problems and how they have been solved in an orderly fashion, and he shows that the strength of materials is influenced as much by their environment and loading systems as by their own structures and shapes.

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The New Science of Strong Materials, Gordon, J E

the new science of strong materials gordon j e

In particular, Gordon focuses on so-called strong materials, such as metals, wood, ceramics, glass, and bone. What is a liquid and is treacle one? He was the author of Structures: Or Why Things Don't Fall Down and The Science of Structures and Materials. The author admits the necessity of being highly selective in the materials he can discuss so broadly, but he ably presents chemical and physical problems and how they have been solved in an orderly fashion, and he shows that the strength of materials is influenced as much by their environment and loading systems as by their own structures and shapes. On the outbreak of the Second World War he moved to the Royal Aircraft Establishment at Farnborough, where he worked on wooden aircraft, plastics and unorthodox materials of all kinds. Why does glass sometimes shatter and sometimes bend like spring? Gordon focuses on so-called strong materials--such as metals, wood, ceramics, glass, and bone--explaining in engaging and accessible terms the unique physical and chemical basis for their i J. He was Industrial Fellow Commoner at Churchill College, Cambridge, and became Professor of Materials Technology at the University of Reading, where he was later Professor Emeritus.

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The New Science of Strong Materials, Or, Why You Don't Fall Through the Floor

the new science of strong materials gordon j e

In its obituary The Times wrote of him that he was 'one of the founders of materials science' and that he wrote 'two books of outstanding literary quality. Philip Ball's introduction describes Gordon's career and the impact of his innovations in materials research, while also discussing how the field has evolved since Gordon wrote this enduring example of first-rate scientific communication. Professor Gordon died in 1998. A whole lot about looking at very very small things with electron microscopes. I sat through two years of chemistry waiting in vain for it to explain things on a practical level, but it turns out I was in the wrong class; I should've sat through Materials Science.

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J. E. Gordon

the new science of strong materials gordon j e

Register a Free 1 month Trial Account. Gordon's classic introduction to the properties of materials used in engineering answers some fundamental and fascinating questions about how the material world around us functions. The author admits the necessity of being highly selective in the materials he can discuss so broadly, but he ably presents chemical and physical problems and how they have been solved in an orderly fashion, and he shows that the strength of materials is influenced as much by their environment and loading systems as by their own structures and shapes. Gordon Introduction by: Philip Ball Introduction by: Philip Ball Author: J. Gordon 1913—1998 was a founder of materials science and biomechanics. Why do ships break in half? Two classics - get Amazon to have them both on your shelf.

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Reading : The New Science Of Strong Materials Gordon J E

the new science of strong materials gordon j e

We thank you upfront to be willing to head to meet up with you! If that makes it sound scattered, trust me, it isn't. Like other books in that series, it is succinct and clearly written. Gordon took a degree in Naval at Glasgow University, and after working in both steel and wood shipyards the outbreak of the Second World War meant that he moved to the Royal Aircraft Establishment at Farnborough. No higher math involved in this text, just simply stated explanations of material science and how this knowledge supports engineering design. Why does glass sometimes shatter and sometimes bend like spring? His book, Structures or Why Things Don't Fall Down, is also published in Penguin. He also shows how an in-depth understanding of these materials' intrinsic strengths and weaknesses guides our engineering choices, allowing us to build the structures that support our modern society.

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The New Science of Strong Materials by J E Gordon (ebook)

the new science of strong materials gordon j e

I discovered it many years ago, and I'm reading it for the 3rd time just for the pleasure. Why do ships break in half? Gordon's classic introduction to the properties of materials used in engineering answers some fundamental and fascinating questions about how the material world around us functions. Way more fun to read than you'd expect from a book about materials engineering. He later became head of the plastic structures sections at Farnborough and developed a method of construction in reinforced plastics which is now used for a number of purpose in aircraft and rockets. He took a degree in naval architecture at Glasgow University and worked in wood and steel shipyards, intending to design sailing ships. Welcome to the reviewing page of the physics website.

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GHS Physics: Reviews

the new science of strong materials gordon j e

All these are questions about the nature of materials. I really enjoyed this one. I found this book an interesting introduction to Material Science as well as a summary and extension to the materials we have covered in class. For each material in question, Gordon explains the unique physical and chemical basis for its inherent structural qualities in irrepressibly fresh and simple terms. In particular, Gordon focuses on so-called strong materials, such as metals, wood, ceramics, glass, and bone.

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New Science of Strong Materials 2nd Edition: J E Gordon: Trade Paperback: 9780691023809: Powell's Books

the new science of strong materials gordon j e

Why do ships break in half? From there, it went into a healthy dose of history about how we developed industrial materials, and concluded with a section that's remarkably forward-looking, even today. I would not consider this book overly technical but rather a 30,000 ft understanding of the subject. Gordon Subject: Science Reference-General Subject: Chemistry Subject: History of Science and Medicine, Philosophy of Science Subject: Civil. Very approachable overall, but not without some really satisfying depth example: the explanation of why, exactly, composite materials tend to be so much stronger. This kind of help is likely to make you much more United! The new science of strong materials is more concerned with material composition - a mix between materials science and chemistry. I learned stuff about biplanes and gliders.

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The New Science of Strong Materials, Or, Why You Don't Fall Through the Floor

the new science of strong materials gordon j e

Philip Ball's new introduction describes Gordon's career and the impact of his innovations in materials research, while also discussing how the field has evolved since Gordon wrote this enduring example of first-rate scientific communication. Gordon focuses on so-called strong materials--such as metals, wood, ceramics, glass, and bone--explaining in engaging and accessible terms the unique physical and chemical basis for their inherent structural qualities. What is a liquid and is treacle one? This is the most entertaining yet informative pop science book I've ever read. All of them are vital to engineers but also fascinating as scientific problems. For the practicing engineer not involved with complex materials sciences on the day to day this book is great as a refresher of the subject without getting too deep in the weeds. All this was not done without both apprehension and adventure; they were giants on the earth in those days.

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