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Graduate students and early career researchers will be guided through the researcher's basic communication tasks: writing theses, journal papers, and internal reports, presenting lectures and posters, and preparing research proposals. Extensive best practice examples and analyses of common problems are presented. Advanced researchers who aim to commercialize their research results will be introduced to business plans and patents, so that they can communicate optimally with patent attorneys and business analysts. Likewise, advanced researchers will be assisted in conveying the results of their research to the industrial and business community, governmental circles, and the general public in the chapter on popular media. Researchers at all levels will find the chapter on CV's and job hunting helpful. The Writing Well chapter will assist researchers to improve their English usage in scientific writing.-
'The book under review is indeed a guide, and a practical one too, but it is not only for engineers and physical scientists — it is useful to all those who communicate technical information or need to and want to do the job well. The book achieves the objectives: every PhD student may not want to read the book, but should — and will not regret it.'European Science EditingRead this book before you write your thesis or journal paper! Communicating Science is a textbook and reference on scientific writing oriented primarily at researchers in the physical sciences and engineering. It is written from the perspective of an experienced researcher. It draws on the authors' experience of teaching and working with both native English speakers and English as a Second Language (ESL) writers. For the range of topics covered, this book is relatively short and tersely written, in order to appeal to busy researchers. Graduate students and early career researchers will be guided through the researcher's basic communication tasks: writing theses, journal papers, and internal reports, presenting lectures and posters, and preparing research proposals. Extensive best practice examples and analyses of common problems are presented. Advanced researchers who aim to commercialize their research results will be introduced to business plans and patents, so that they can communicate optimally with patent attorneys and business analysts. Likewise, advanced researchers will be assisted in conveying the results of their research to the industrial and business community, governmental circles, and the general public in the chapter on popular media. Researchers at all levels will find the chapter on CV's and job hunting helpful. The Writing Well chapter will assist researchers to improve their English usage in scientific writing. This chapter is oriented both at native English speakers, who have an intuitive command of English but often lack formal instruction on grammar and structure, and non-native English writers, who often have had formal instruction but lack intuitive grasp of what sounds good.Mentors will find the book a useful tool for systematically guiding their students in their early writing efforts. If your students read this book first, you will save time! Communicating Science may serve as a textbook for graduate level courses in scientific writing.
Are you wishing you knew how to better communicate science, without having to read several hundred academic papers and books on the topic? Luckily Dr Craig Cormick has done this for you! This highly readable and entertaining book distils best practice research on science communication into accessible chapters, supported by case studies and examples. With practical advice on everything from messages and metaphors to metrics and ethics, you will learn what the public think about science and why, and how to shape scientific research into a story that will influence beliefs, behaviours and policies.
Science communication is a rapidly expanding area and meaningful engagement between scientists and the public requires effective communication. Designed to help the novice scientist get started with science communication, this unique guide begins with a short history of science communication before discussing the design and delivery of an effective engagement event. Along with numerous case studies written by highly regarded international contributors, the book discusses how to approach face-to-face science communication and engagement activities with the public while providing tips to avoid potential pitfalls. This book has been written for scientists at all stages of their career, including undergraduates and postgraduates wishing to engage with effective science communication for the first time, or looking to develop their science communication portfolio.
Scientists today working on controversial issues from climate change to drought to COVID-19 are finding themselves more often in the middle of deeply traumatizing or polarized conflicts they feel unprepared to referee. It is no longer enough for scientists to communicate a scientific topic clearly. They must now be experts not only in their fields of study, but also in navigating the thoughts, feelings, and opinions of members of the public they engage with, and with each other. And the conversations are growing more fraught. In Getting to the Heart of Science Communication, Faith Kearns has penned a succinct guide for navigating the human relationships critical to the success of practice-based science. This meticulously researched volume takes science communication to the next level, helping scientists to see the value of listening as well as talking, understanding power dynamics in relationships, and addressing the roles of trauma, loss, grief, and healing.
This brief guide is ideal for science and engineering students and professionals to help them communicate technical information clearly, accurately, and effectively. The focus is on the most common communication forms, including laboratory reports, research articles, and oral presentations, and on common issues that arise in classroom and professional practice. This book will be especially useful to students in a first chemistry or physics laboratory course. Advanced courses will often use the same formatting as required for submission to technical journals or for technical report writing, which is the focus of this book. Good communication habits are appropriate in all forms of technical communication. This book will help the reader develop effective communication skills. It is also ideal as a reference on stylistic and grammar issues throughout a technical career. Unlike most texts, which concentrate on writing style, this book also treats oral presentations, graphing, and analysis of data.
From discussions of climate change to the latest arguments around stem cell research, science has never been more topical and relevant to our everyday lives. Yet its intricacies are often hard for the general public to grasp. The key challenge for scientists and science communicators is to explain these scientific ideas and engage different groups with current debates. This long-overdue book explores how to successfully communicate complex and sometimes controversial scientific issues. Investigating the practices behind a range of traditional media and more interactive approaches, the book looks at how professional communicators interact with and present science communication in all its guises. It explores the historical background of science communication and examines how science continues to be referred to and used throughout popular culture, the media, and museums. Practical chapters explain key methods and give tips on overcoming communication issues and problems, whilst introducing the reader to a theoretical understanding of science communication. Written and edited by pioneering and experienced professionals in the field, this is an essential text for students and practitioners learning how to effectively communicate science.
Modern science communication has emerged in the twentieth century as a field of study, a body of practice and a profession—and it is a practice with deep historical roots. We have seen the birth of interactive science centres, the first university actions in teaching and conducting research, and a sharp growth in employment of science communicators. This collection charts the emergence of modern science communication across the world. This is the first volume to map investment around the globe in science centres, university courses and research, publications and conferences as well as tell the national stories of science communication. How did it all begin? How has development varied from one country to another? What motivated governments, institutions and people to see science communication as an answer to questions of the social place of science? Communicating Science describes the pathways followed by 39 different countries. All continents and many cultures are represented. For some countries, this is the first time that their science communication story has been told.
Communication: The Essence of Science provides information pertinent to the fundamental aspects of scientific communication. This book focuses on those information-exchange activities that take place mainly among scientists actively involved on the research front. Organized into five chapters, this book begins with an overview of the psychologists' description of the communication structure of science. This text then examines the relationship among spanning, connecting, and integrating the various streams of activities involved in the production of information. Other chapters consider some of the main republication media and suggest ways that may be used in the librarian's effort to provide effective information services to scientists. This book discusses as well the significance of scientific articles to the scientific community. The final chapter deals with the significant role of librarians as a social scientist. This book is a valuable resource for psychologists, social psychologists, librarians, social scientists, sociologists, engineers, teachers, and students.