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Understanding the fundamentals of conducting good science, that will have an impact, is the goal of every aspiring scientist. Providing a wealth of tips, How to be a Better Scientist is the book to read if you want to succeed in this competitive field. Helping readers gain an insight into what good science means and how to conduct it, this book is ideal to read cover-to-cover or dip into. It includes easily accessible guidance on topics such as: • What characteristics should a scientist have? • Understanding the hypothesis • Integrity in science • Lack of confidence and the embarrassment factor • Time management • Coping with rejection • Interacting with the science community With its broad focus, this friendly guide will enthuse, inspire and challenge, and is an essential companion for all aspiring scientists.
A practical guide to a successful scientific career, including creativity and problem-solving techniques to enhance research quality and output.
Learn how to think like a scientist, look at the world in a brand-new way and have tons of fun with science comedian Steve Mould's bold and playful kids science book. Supporting STEM and STEAM education initiatives, How to be a Scientist will inspire kids to ask questions, do activities, think creatively, and discover amazing fun facts! A firm favorite in classrooms and homes alike, this science book for kids has earned itself a permanent spot on many family bookshelves. With more than 40 fun questions, experiments, games, and real-life scenarios that make scientific concepts fun and relevant, it's not hard to see why! Simple activities with undetermined answers encourage curious young readers to find new ways to test ideas. The stories of the great scientists and their discoveries (and failures) are told in an entertaining way to provide even further inspiration for budding young scientists. This educational book has the amazing ability to cover a wide range of ages, so if your children have an age gap this is a fantastic way to get them to engage with each other in a fun and educational way. It is informative, colorful, well written and draws you into its pages with an insatiable appetite for the simpler facts of science. Most of the home science experiments for kids are easy to do with items most people already have around the house, making it super easy to go from idea to execution. Explore, Investigate And Test Your Ideas! Discover the skills it takes to become a scientist. Being a scientist isn't just about wearing a white coat and doing experiments in a lab. It's about exploring, investigating, testing and figuring out how things work. How To Be A Scientist is packed with fun activities and projects that let you answer lots of tricky questions and help to explain the world around you. This kid's educational book challenges children to think for themselves and covers topics like: - Weather, making a tornado, the water cycle, how to make a compass - Energy, hot air balloons, electricity, Newton and Einstein - The solar system, making a sundial, creating your own sunrise, phases of the moon How to be a Scientist (Careers for Kids) is one of four fantastic books in the How to... educational books series, including How To Be A Math Genius, How to Be Good at Math, andHow to Make a Better World. Official reviews include: International Literacy Association's Children's Choices 2018 Reading List "Readers will be inspired to learn more about how to think and act like these famous scientists while uncovering deep scientific knowledge they can apply through fun-filled science projects." Minnesota Parent "This mix of classic and unusual science anecdotes and experiments is just the thing for budding STEM/STEAM fans, including tips for learning how to think and act like a scientist with fun activities and simple scientific explanations of biology, anatomy, physics, astronomy, chemistry and more."
This unique, practical guide for postdoctoral researchers and graduate students explains how to build and perfect the necessary research tools and working skills to build a career in academia and beyond. It is based on successful training workshops run by the authors: first, it describes the tools needed for independent research, from writing papers to applying for academic jobs; it then introduces skills to thrive in a new job, including managing and interacting with others, designing a taught course and giving a good lecture; and it concludes with a section on managing your career, from how to manage stress to understanding the higher education system. Packed with helpful features encouraging readers to apply the theory to their individual situation, the book is also illustrated throughout with real-world case studies to enable readers to learn from others' experience. It is a vital handbook for everyone seeking to make a successful scientific career.
To those interested in a life in science, Sir Peter Medawar, Nobel laureate, deflates the myths of invincibility, superiority, and genius; instead, he demonstrates it is common sense and an inquiring mind that are essential to the scientist's calling. He deflates the myths surrounding scientists -- invincibility, superiority, and genius; instead, he argues that it is common sense and an inquiring mind that are essential to the makeup of a scientist. He delivers many wry observations on how to choose a research topic, how to get along wih collaborators and older scientists and administrators, how (and how not) to present a scientific paper, and how to cope with culturally "superior" specialists in the arts and humanities.
Pulitzer Prize–winning biologist Edward O. Wilson imparts the wisdom of his storied career to the next generation. Edward O. Wilson has distilled sixty years of teaching into a book for students, young and old. Reflecting on his coming-of-age in the South as a Boy Scout and a lover of ants and butterflies, Wilson threads these twenty-one letters, each richly illustrated, with autobiographical anecdotes that illuminate his career—both his successes and his failures—and his motivations for becoming a biologist. At a time in human history when our survival is more than ever linked to our understanding of science, Wilson insists that success in the sciences does not depend on mathematical skill, but rather a passion for finding a problem and solving it. From the collapse of stars to the exploration of rain forests and the oceans’ depths, Wilson instills a love of the innate creativity of science and a respect for the human being’s modest place in the planet’s ecosystem in his readers.
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
"So You Want To Be a Scientist? offers the reader a glimpse into the job of being a research scientist."--Page 4 of cover.
One of the pathways by which the scientific community confirms the validity of a new scientific discovery is by repeating the research that produced it. When a scientific effort fails to independently confirm the computations or results of a previous study, some fear that it may be a symptom of a lack of rigor in science, while others argue that such an observed inconsistency can be an important precursor to new discovery. Concerns about reproducibility and replicability have been expressed in both scientific and popular media. As these concerns came to light, Congress requested that the National Academies of Sciences, Engineering, and Medicine conduct a study to assess the extent of issues related to reproducibility and replicability and to offer recommendations for improving rigor and transparency in scientific research. Reproducibility and Replicability in Science defines reproducibility and replicability and examines the factors that may lead to non-reproducibility and non-replicability in research. Unlike the typical expectation of reproducibility between two computations, expectations about replicability are more nuanced, and in some cases a lack of replicability can aid the process of scientific discovery. This report provides recommendations to researchers, academic institutions, journals, and funders on steps they can take to improve reproducibility and replicability in science.
Understanding the fundamentals of conducting good science, that will have an impact, is the goal of every aspiring scientist. Providing a wealth of tips, How to be a Better Scientist is the book to read if you want to succeed in this competitive field. Helping readers gain an insight into what good science means and how to conduct it, this book is ideal to read cover-to-cover or dip into. It includes easily accessible guidance on topics such as: • What characteristics should a scientist have? • Understanding the hypothesis • Integrity in science • Lack of confidence and the embarrassment factor • Time management • Coping with rejection • Interacting with the science community With its broad focus, this friendly guide will enthuse, inspire and challenge, and is an essential companion for all aspiring scientists.