Guide to e-Science


Book Description

This guidebook on e-science presents real-world examples of practices and applications, demonstrating how a range of computational technologies and tools can be employed to build essential infrastructures supporting next-generation scientific research. Each chapter provides introductory material on core concepts and principles, as well as descriptions and discussions of relevant e-science methodologies, architectures, tools, systems, services and frameworks. Features: includes contributions from an international selection of preeminent e-science experts and practitioners; discusses use of mainstream grid computing and peer-to-peer grid technology for “open” research and resource sharing in scientific research; presents varied methods for data management in data-intensive research; investigates issues of e-infrastructure interoperability, security, trust and privacy for collaborative research; examines workflow technology for the automation of scientific processes; describes applications of e-science.




NSTA Guide to School Science Facilities


Book Description

The National Science Teachers Association, in response to the emergence of new science curricula and the need for updated science facilities in the nation's public schools, convened a task force to develop guidelines for K-12 science facility design and use. This guide, a result of NSTA Task Force on Science Facilities and Equipment, includes information about planning facilities design; budget priorities; space considerations; general room and laboratory design; and furnishings for the laboratory/classroom specifically targeting K-5, middle, and high schools. It is designed to familiarize educators, administrators, and citizens with the stages of the planning process for new and renovated science facilities and provides specific, detailed information on many aspects of the planning and design phases. Additionally, chapters address current trends and future directions in science education and safety, accessibility, and legal guidelines. Appendices include discussions on solar energy for school facilities, equipment needs planning, checklists, a glossary of construction terms, and classroom dimensional considerations. (GR)




The Chicago Guide to Communicating Science


Book Description

This book is a comprehensive guide to scientific communication that has been used widely in courses and workshops as well as by individual scientists and other professionals since its first publication in 2002. This revision accounts for the many ways in which the globalization of research and the changing media landscape have altered scientific communication over the past decade. With an increased focus throughout on how research is communicated in industry, government, and non-profit centers as well as in academia, it now covers such topics as the opportunities and perils of online publishing, the need for translation skills, and the communication of scientific findings to the broader world, both directly through speaking and writing and through the filter of traditional and social media. It also offers advice for those whose research concerns controversial issues, such as climate change and emerging viruses, in which clear and accurate communication is especially critical to the scientific community and the wider world.




A Consumer's Guide to Archaeological Science


Book Description

Many archaeologists, as primarily social scientists, do not have a background in the natural sciences. This can pose a problem because they need to obtain chemical and physical analyses on samples to perform their research. This manual is an essential source of information for those students without a background in science, but also a comprehensive overview that those with some understanding of archaeological science will find useful. The manual provides readers with the knowledge to use archaeological science methods to the best advantage. It describes and explains the analytical techniques in a manner that the average archaeologist can understand, and outlines clearly the requirements, benefits, and limitations of each possible method of analysis, so that the researcher can make informed choices. The work includes specific information about a variety of dating techniques, provenance studies, isotope analysis as well as the analysis of organic (lipid and protein) residues and ancient DNA. Case studies illustrating applications of these approaches to most types of archaeological materials are presented and the instruments used to perform the analyses are described. Available destructive and non-destructive approaches are presented to help archaeologists select the most effective technique for gaining the target information from the sample. Readers will reach for this manual whenever they need to decide how to best analyze a sample, and how the analysis is performed.




A Guide to Teaching Elementary Science


Book Description

Nationally and internationally, educators now understand the critical importance of STEM subjects—science, technology, engineering, and mathematics. Today, the job of the classroom science teacher demands finding effective ways to meet current curricula standards and prepare students for a future in which a working knowledge of science and technology will dominate. But standards and goals don’t mean a thing unless we: • grab students’ attention; • capture and deepen children’s natural curiosity; • create an exciting learning environment that engages the learner; and • make science come alive inside and outside the classroom setting. A Guide to Teaching Elementary Science: Ten Easy Steps gives teachers, at all stages of classroom experience, exactly what the title implies. Written by lifelong educator Yvette Greenspan, this book is designed for busy classroom teachers who face tough conditions, from overcrowded classrooms to shrinking budgets, and too often end up anxious and overwhelmed by the challenges ahead and their desire for an excellent science program. This book: • helps teachers develop curricula compatible with the Next Generation Science Standards and the Common Core Standards; • provides easy-to-implement steps for setting up a science classroom, plus strategies for using all available resources to assemble needed teaching materials; • offers detailed sample lesson plans in each STEM subject, adaptable to age and ability and designed to embrace the needs of all learners; and • presents bonus information about organizing field trips and managing science fairs. Without question, effective science curricula can help students develop critical thinking skills and a lifelong passion for science. Yvette Greenspan received her doctorate degree in science education and has developed science curriculum at all levels. A career spent in teaching elementary students in an urban community, she now instructs college students, sharing her love for the teaching and learning of science. She considers it essential to encourage today’s students to be active learners and to concentrate on STEM topics that will help prepare them for the real world.




The Chicago Guide to Your Career in Science


Book Description

Embarking upon research as a graduate student or postdoc can be exciting and enriching—the start of a rewarding career. But the world of scientific research is also a competitive one, with grants and good jobs increasingly hard to find. The Chicago Guide to Your Career in Science is intended to help scientists not just cope but excel at this critical phase in their careers. Victor A. Bloomfield and Esam E. El-Fakahany, both well-known scientists with extensive experience as teachers, mentors, and administrators, have combined their knowledge to create a guidebook that addresses all of the challenges that today’s scientists-in-training face. They begin by considering the early stages of a career in science: deciding whether or not to pursue a PhD, choosing advisors and mentors, and learning how to teach effectively. Bloomfield and El-Fakahany then explore the skills essential to conducting and presenting research. The Chicago Guide to Your Career in Science offers detailed advice on how to pursue research ethically, manage time, and communicate effectively, especially at academic conferences and with students and peers. Bloomfield and El-Fakahany write in accessible, straightforward language and include a synopsis of key points at the end of each chapter, so that readers can dip into relevant sections with ease. From students prepping for the GRE to postdocs developing professional contacts to faculty advisors and managers of corporate labs, scientists at every level will find The Chicago Guide to Your Career in Science an unparalleled resource. “The Chicago Guide to Your Career in Science is a roadmap to the beginning stages of a scientific career. I will encourage my own students to purchase it.”—Dov F. Sax, assistant professor of ecology and evolutionary biology, Brown University “Step-by-step, Victor Bloomfield and Esam El-Fakahany provide sound, thorough, yet succinct advice on every issue a scientist in training is likely to encounter. Young readers will welcome the authors’ advice on choosing a graduate school, for example, while senior scientists will probably wish that a book like this had been around when they were starting out. With down-to-earth and occasionally humorous advice, The Chicago Guide to your Career in Academic Biology belongs on the bookshelf of every graduate student and advisor.”—Norma Allewell, Dean, College of Chemical and Life Sciences, University of Maryland







The Science of Reading: a Defining Guide


Book Description

Humankind's most precious treasure is our children, and our future depends on them. We recognize literacy as a fundamental human right that empowers individuals in a society. We also know that grim life outcomes are connected to illiteracy. We are resolved to prevent the collateral damage that is incurred by our students, especially the most vulnerable among them, when adults have limited access to the convergent scientific evidence. Research has yielded proven assessment and instructional practices with which every teacher and leader should be equipped. We believe that providing educators with this knowledge is a moral imperative. We are committed to evidence-aligned reading instruction being scaled with a sense of urgency in a comprehensive and systematic way by multiple stakeholders. We know that our children can be taught to read properly the first time. In a knowledge economy, the currency of the 21st century will be built on the foundation of skilled reading. Students who can read well have a place at the table of opportunity whether their aspirations lead them to preparation for college or the workforce. We believe in a future where a collective focus on applying the Science of Reading through teacher and leader preparation, classroom application, and community engagement will elevate and transform every community, every nation, through the power of literacy.




The Manual of Scientific Style


Book Description

Much like the Chicago Manual of Style, The Manual of Scientific Style addresses all stylistic matters in the relevant disciplines of physical and biological science, medicine, health, and technology. It presents consistent guidelines for text, data, and graphics, providing a comprehensive and authoritative style manual that can be used by the professional scientist, science editor, general editor, science writer, and researcher. - Scientific disciplines treated independently, with notes where variances occur in the same linguistic areas - Organization and directives designed to assist readers in finding the precise usage rule or convention - A focus on American usage in rules and formulations with noted differences between American and British usage - Differences in the various levels of scientific discourse addressed in a variety of settings in which science writing appears - Instruction and guidance on the means of improving clarity, precision, and effectiveness of science writing, from its most technical to its most popular




The MIT Guide to Science and Engineering Communication, second edition


Book Description

A second edition of a popular guide to scientific and technical communication, updated to reflect recent changes in computer technology. This guide covers the basics of scientific and engineering communication, including defining an audience, working with collaborators, searching the literature, organizing and drafting documents, developing graphics, and documenting sources. The documents covered include memos, letters, proposals, progress reports, other types of reports, journal articles, oral presentations, instructions, and CVs and resumes. Throughout, the authors provide realistic examples from actual documents and situations. The materials, drawn from the authors' experience teaching scientific and technical communication, bridge the gap between the university novice and the seasoned professional. In the five years since the first edition was published, communication practices have been transformed by computer technology. Today, most correspondence is transmitted electronically, proposals are submitted online, reports are distributed to clients through intranets, journal articles are written for electronic transmission, and conference presentations are posted on the Web. Every chapter of the book reflects these changes. The second edition also includes a compact Handbook of Style and Usage that provides guidelines for sentence and paragraph structure, punctuation, and usage and presents many examples of strategies for improved style.