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A collection of documents from antiquity to the 16th century in the historical West (Bactria to the Atlantic), in the original languages with an English translation and introductory essays, about the motivations and purposes of translation from and into Greek, Syriac, Middle Persian, Arabic, Hebrew, and Latin, as given in the personal statements by the translators, scholars, and historians of each society.
Are you a non-native English speaker? Are you often confronted with manuscript rejections because of poor language impeding comprehension of your paper? A Practical Guide to Scientific and Technical Translation is your solution. In this one-stop guide, two authors with extensive experience as reviewers and translators in a vast medley of scientific fields assist you to produce professional quality documents, whether through direct authoring in a language foreign to you or translation from an existing text. The book is not intended as a text on English grammar but as a troubleshooting guide to linguistic and style errors. We will help you overcome at least the most common problems here. Technical terminology searching and choice will also be covered with examples from a number of scientific (physics, chemistry) and engineering disciplines (aviation, transport, nuclear, environment, etc.), with advice on how to choose the right term for the right job. While the emphasis is on producing documents in English (the lingua franca of modern scientific literature), general translation concepts are also discussed. Hence, this book will also be useful to translators, and scientists who need to present their work in languages other than English.
Toward a Science of Translating, first published in 1964, is still very much in demand today. Written by a linguist and anthropologist with forty years of experience in the field of language and religion, this work describes the major components of translating; setting the translating into the context of historical changes in principles and procedures over the last two centuries. With an emphasis on texts being understood within their cultural contexts, one of the reasons for its continuing relevance is the broad number of illustrative examples taken from field experience of translators in America, Africa, Europe and Asia.
A rare behind-the-scenes look at the work of forensic scientists The findings of forensic science—from DNA profiles and chemical identifications of illegal drugs to comparisons of bullets, fingerprints, and shoeprints—are widely used in police investigations and courtroom proceedings. While we recognize the significance of this evidence for criminal justice, the actual work of forensic scientists is rarely examined and largely misunderstood. Blood, Powder, and Residue goes inside a metropolitan crime laboratory to shed light on the complex social forces that underlie the analysis of forensic evidence. Drawing on eighteen months of rigorous fieldwork in a crime lab of a major metro area, Beth Bechky tells the stories of the forensic scientists who struggle to deliver unbiased science while under intense pressure from adversarial lawyers, escalating standards of evidence, and critical public scrutiny. Bechky brings to life the daily challenges these scientists face, from the painstaking screening and testing of evidence to making communal decisions about writing up the lab report, all while worrying about attorneys asking them uninformed questions in court. She shows how the work of forensic scientists is fraught with the tensions of serving justice—constantly having to anticipate the expectations of the world of law and the assumptions of the public—while also staying true to their scientific ideals. Blood, Powder, and Residue offers a vivid and sometimes harrowing picture of the lives of highly trained experts tasked with translating their knowledge for others who depend on it to deliver justice.
In early 2012, the global scientific community erupted with news that the elusive Higgs boson had likely been found, providing potent validation for the Standard Model of how the universe works. Scientists from more than one hundred countries contributed to this discovery—proving, beyond any doubt, that a new era in science had arrived, an era of multinationalism and cooperative reach. Globalization, the Internet, and digital technology all play a role in making this new era possible, but something more fundamental is also at work. In all scientific endeavors lies the ancient drive for sharing ideas and knowledge, and now this can be accomplished in a single tongue— English. But is this a good thing? In Does Science Need a Global Language?, Scott L. Montgomery seeks to answer this question by investigating the phenomenon of global English in science, how and why it came about, the forms in which it appears, what advantages and disadvantages it brings, and what its future might be. He also examines the consequences of a global tongue, considering especially emerging and developing nations, where research is still at a relatively early stage and English is not yet firmly established. Throughout the book, he includes important insights from a broad range of perspectives in linguistics, history, education, geopolitics, and more. Each chapter includes striking and revealing anecdotes from the front-line experiences of today’s scientists, some of whom have struggled with the reality of global scientific English. He explores topics such as student mobility, publication trends, world Englishes, language endangerment, and second language learning, among many others. What he uncovers will challenge readers to rethink their assumptions about the direction of contemporary science, as well as its future.
Mediaevalia Lovaniensia 40Medieval translators played an important role in the development and evolution of a scientific lexicon. At a time when most scholars deferred to authority, the translations of canonical texts assumed great importance. Moreover, translation occurred at two levels in the Middle Ages. First, Greek or Arabic texts were translated into the learned language, Latin. Second, Latin texts became source texts themselves, to be translated into the vernaculars as their importance across Europe started to increase.The situation of the respective translators at these two levels was fundamentally different: whereas the former could rely on a long tradition of scientific discourse, the latter had the enormous responsibility of actually developing a scientific vocabulary. The contributions in the present volume investigate both levels, greatly illuminating the emergence of the scientific terminology and concepts that became so fundamental in early modern intellectual discourse. The scientific disciplines covered in the book include, among others, medicine, biology, astronomy, and physics.
"Why Translation Matters argues for the cultural importance of translation and for a more encompassing and nuanced appreciation of the translator's role. As the acclaimed translator Edith Grossman writes in her introduction, "My intention is to stimulate a new consideration of an area of literature that is too often ignored, misunderstood, or misrepresented." For Grossman, translation has a transcendent importance: "Translation not only plays its important traditional role as the means that allows us access to literature originally written in one of the countless languages we cannot read, but it also represents a concrete literary presence with the crucial capacity to ease and make more meaningful our relationships to those with whom we may not have had a connection before. Translation always helps us to know, to see from a different angle, to attribute new value to what once may have been unfamiliar. As nations and as individuals, we have a critical need for that kind of understanding and insight. The alternative is unthinkable"."--Jacket.
The most recent high-profile advocate for Americans with disabilities, actor Christopher Reeve, has highlighted for the public the economic and social costs of disability and the importance of rehabilitation. Enabling America is a major analysis of the field of rehabilitation science and engineering. The book explains how to achieve recognition for this evolving field of study, how to set priorities, and how to improve the organization and administration of the numerous federal research programs in this area. The committee introduces the "enabling-disability process" model, which enhances the concepts of disability and rehabilitation, and reviews what is known and what research priorities are emerging in the areas of: Pathology and impairment, including differences between children and adults. Functional limitationsâ€"in a person's ability to eat or walk, for example. Disability as the interaction between a person's pathologies, impairments, and functional limitations and the surrounding physical and social environments. This landmark volume will be of special interest to anyone involved in rehabilitation science and engineering: federal policymakers, rehabilitation practitioners and administrators, researchers, and advocates for persons with disabilities.
English is the language of science today. No matter which languages you know, if you want your work seen, studied, and cited, you need to publish in English. But that hasn’t always been the case. Though there was a time when Latin dominated the field, for centuries science has been a polyglot enterprise, conducted in a number of languages whose importance waxed and waned over time—until the rise of English in the twentieth century. So how did we get from there to here? How did French, German, Latin, Russian, and even Esperanto give way to English? And what can we reconstruct of the experience of doing science in the polyglot past? With Scientific Babel, Michael D. Gordin resurrects that lost world, in part through an ingenious mechanism: the pages of his highly readable narrative account teem with footnotes—not offering background information, but presenting quoted material in its original language. The result is stunning: as we read about the rise and fall of languages, driven by politics, war, economics, and institutions, we actually see it happen in the ever-changing web of multilingual examples. The history of science, and of English as its dominant language, comes to life, and brings with it a new understanding not only of the frictions generated by a scientific community that spoke in many often mutually unintelligible voices, but also of the possibilities of the polyglot, and the losses that the dominance of English entails. Few historians of science write as well as Gordin, and Scientific Babel reveals his incredible command of the literature, language, and intellectual essence of science past and present. No reader who takes this linguistic journey with him will be disappointed.
A Turing Award-winning computer scientist and statistician shows how understanding causality has revolutionized science and will revolutionize artificial intelligence "Correlation is not causation." This mantra, chanted by scientists for more than a century, has led to a virtual prohibition on causal talk. Today, that taboo is dead. The causal revolution, instigated by Judea Pearl and his colleagues, has cut through a century of confusion and established causality -- the study of cause and effect -- on a firm scientific basis. His work explains how we can know easy things, like whether it was rain or a sprinkler that made a sidewalk wet; and how to answer hard questions, like whether a drug cured an illness. Pearl's work enables us to know not just whether one thing causes another: it lets us explore the world that is and the worlds that could have been. It shows us the essence of human thought and key to artificial intelligence. Anyone who wants to understand either needs The Book of Why.