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This book takes an integrated approach, using the principles of story structure to discuss every aspect of successful science writing, from the overall structure of a paper or proposal to individual sections, paragraphs, sentences, and words. It begins by building core arguments, analyzing why some stories are engaging and memorable while others are quickly forgotten, and proceeds to the elements of story structure, showing how the structures scientists and researchers use in papers and proposals fit into classical models. The book targets the internal structure of a paper, explaining how to write clear and professional sections, paragraphs, and sentences in a way that is clear and compelling.
A deeply sourced, inclusive guide to all aspects of science writing with contributions from some of the most skilled and award-winning authors working today. Science writing has never been so critical to our world, and the demands on writers have never been greater. On any given day, a writer might need to explain the details of AI, analyze developments in climate change research, or serve as a watchdog helping to ensure the integrity of the scientific enterprise. At the same time, writers must spin tales that hook and keep readers, despite the endless other demands on their attention. How does one do it? The Craft of Science Writing is the authoritative guide. With pieces curated from the archives of science writers’ go-to online resource, The Open Notebook, this book explores strategies for finding and shaping story ideas, pitching editors, and building a specialty in science writing. It delves into fundamental skills that every science writer must learn, including planning their reporting; identifying, interviewing, and quoting sources; organizing interview notes; and crafting stories that engage and inform audiences. This expanded edition includes new introductory material and nine new essays focusing on such topics as how to establish a science beat, how to find and use quotes, how to critically evaluate scientific claims, how to use social media for reporting, and how to do data-driven reporting. In addition, there are essays on inclusivity in science writing, offering strategies for eradicating ableist language from stories, working with sensitivity readers, and breaking into English-language media for speakers of other languages. Through interviews with leading journalists offering behind-the-scenes inspiration as well as in-depth essays on the craft offering practical advice, readers will learn how the best science stories get made, from conception to completion. Contributors: Humberto Basilio, Siri Carpenter, Jeanne Erdmann, Dan Ferber, Tina Casagrand Foss, Geoffrey Giller, Laura Helmuth, Jane C. Hu, Alla Katsnelson, Roxanne Khamsi, Betsy Ladyzhets, Jyoti Madhusoodanan, Amanda Mascarelli, Robin Meadows, Kate Morgan, Tiên Nguyễn, Michelle Nijhuis, Aneri Pattani, Rodrigo Pérez Ortega, Mallory Pickett, Kendall Powell, Tasneem Raja, Sandeep Ravindran, Marion Renault, Julia Rosen, Megha Satyanarayana, Christina Selby, Knvul Sheikh, Abdullahi Tsanni, Alexandra Witze, Katherine J. Wu, Wudan Yan, Ed Yong, Rachel Zamzow, Sarah Zhang, and Carl Zimmer
It has been assumed that a gulf existed between science and the humanities and that the writings of scientists had no literary features. Locke argues that scientific language can be imaginative and expressive and shows how modes of literary criticism can be keys to the reading of scientific texts.
Selected and introduced by Richard Dawkins, The Oxford Book of Modern Science Writing is a celebration of the finest writing by scientists for a wider audience - revealing that many of the best scientists have displayed as much imagination and skill with the pen as they have in the laboratory.This is a rich and vibrant collection that captures the poetry and excitement of communicating scientific understanding and scientific effort from 1900 to the present day. Professor Dawkins has included writing from a diverse range of scientists, some of whom need no introduction, and some of whoseworks have become modern classics, while others may be less familiar - but all convey the passion of great scientists writing about their science.
Telling people about research is just as important as doing it. But many competent researchers are wary of scientific writing, despite its importance for sharpening scientific thinking, advancing their career, obtaining funding for their work and growing the prestige of their institution. This second edition of David Lindsay’s popular book Scientific Writing = Thinking in Words presents a way of thinking about writing that builds on the way good scientists think about research. The simple principles in this book will help you to clarify the objectives of your work and present your results with impact. Fully updated throughout, with practical examples of good and bad writing, an expanded chapter on writing for non-scientists and a new chapter on writing grant applications, this book makes communicating research easier and encourages researchers to write confidently. It is an ideal reference for researchers preparing journal articles, posters, conference presentations, reviews and popular articles; for students preparing theses; and for researchers whose first language is not English.
The Craft of Scientific Presentations, 2nd edition aims to strengthen you as a presenter of science and engineering. The book does so by identifying what makes excellent presenters such as Brian Cox, Jane Goodall, Richard Feynman, and Jill Bolte Taylor so strong. In addition, the book explains what causes so many scientific presentations to flounder. One of the most valuable contributions of this text is that it teaches the assertion-evidence approach to scientific presentations. Instead of building presentations, as most engineers and scientists do, on the weak foundation of topic phrases and bulleted lists, this assertion-evidence approach calls for building presentations on succinct message assertions supported by visual evidence. Unlike the commonly followed topic-subtopic approach that PowerPoint leads presenters to use, the assertion-evidence approach is solidly grounded in research. By showing the differences between strong and weak presentations, by identifying the errors that scientific presenters typically make, and by teaching a much more powerful approach for scientific presentations than what is commonly practiced, this book places you in a position to elevate your presentations to a high level. In essence, this book aims to have you not just succeed in your scientific presentations, but excel. About the Author Michael Alley has taught workshops on presentations to engineers and scientists on five continents, and has recently been invited to speak at the European Space Organization, Harvard Medical School, MIT, Sandia National Labs, Shanghai Jiao Tong University, Simula Research Laboratory, and United Technologies. An Associate Professor of engineering communication at Pennsylvania State University, Alley is a leading researcher on the effectiveness of different designs for presentation slides.
A concise and accessible primer on the scientific writer's craft The ability to write clearly is critical to any scientific career. The Scientist's Guide to Writing provides practical advice to help scientists become more effective writers so that their ideas have the greatest possible impact. Drawing on his own experience as a scientist, graduate adviser, and editor, Stephen Heard emphasizes that the goal of all scientific writing should be absolute clarity; that good writing takes deliberate practice; and that what many scientists need are not long lists of prescriptive rules but rather direct engagement with their behaviors and attitudes when they write. He combines advice on such topics as how to generate and maintain writing momentum with practical tips on structuring a scientific paper, revising a first draft, handling citations, responding to peer reviews, managing coauthorships, and more. In an accessible, informal tone, The Scientist's Guide to Writing explains essential techniques that students, postdoctoral researchers, and early-career scientists need to write more clearly, efficiently, and easily. Emphasizes writing as a process, not just a product Encourages habits that improve motivation and productivity Explains the structure of the scientific paper and the function of each part Provides detailed guidance on submission, review, revision, and publication Addresses issues related to coauthorship, English as a second language, and more
This timely and hugely practical work provides a score of examples from contemporary and historical scientific presentations to show clearly what makes an oral presentation effective. It considers presentations made to persuade an audience to adopt some course of action (such as funding a proposal) as well as presentations made to communicate information, and it considers these from four perspectives: speech, structure, visual aids, and delivery. It also discusses computer-based projections and slide shows as well as overhead projections. In particular, it looks at ways of organizing graphics and text in projected images and of using layout and design to present the information efficiently and effectively.
Resumen: Are you a post-graduate student in Engineering, Science or Technology who needs to know how to: Prepare abstracts, theses and journal papers Present your work orally Present a progress report to your funding body Would you like some guidance aimed specifically at your subject area? ... This is the book for you; a practical guide to all aspects of post-graduate documentation for Engineering, Science and Technology students, which will prove indispensable to readers. Writing for Science and Engineering will prove invaluable in all areas of research and writing due its clear, concise style. The practical advice contained within the pages alongside numerous examples to aid learning will make the preparation of documentation much easier for all students.