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John Banville’s stunning powers of mimicry are brilliantly on display in this engrossing novel, the darkly compelling confession of an improbable murderer. Freddie Montgomery is a highly cultured man, a husband and father living the life of a dissolute exile on a Mediterranean island. When a debt comes due and his wife and child are held as collateral, he returns to Ireland to secure funds. That pursuit leads to murder. And here is his attempt to present evidence, not of his innocence, but of his life, of the events that lead to the murder he committed because he could. Like a hero out of Nabokov or Camus, Montgomery is a chillingly articulate, self-aware, and amoral being, whose humanity is painfully on display.
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The first comprehensive history of the Obama administration's evidence-based initiatives. From its earliest days, the Obama administration planned and enacted several initiatives to fund social programs based on rigorous evidence of success. Ron Haskins and Greg Margolis tell the story of six—spanning preschool and K-12 education, teen pregnancy, employment and training, health, and community-based programs. Readers will appreciate the fast-moving descriptions of the politics and policy debates that shaped these federal programs and the analysis of whether they will truly reshape federal social policy and greatly improve its impacts on the nation's social problems. Based on interviews with 134 individuals (including advocates, officials at the Office of Management and Budget and the Domestic Policy Council, Congressional staff, and officials in the federal agencies administering the initiatives) as well as Congressional and administration documents and news accounts, the authors examine each of the six initiatives in separate chapters. The story of each initiative includes a review of the social problem the initiative addresses; the genesis and enactment of the legislation that authorized the initiative; and the development of the procedures used by the administration to set the evidence standard and evaluation requirements—including the requirements for grant applications and awarding of grants.
With the view that children are capable young scientists, authors encourage science teaching in ways that nurture students' curiosity about how the natural world works including research-based approaches to support all K-5 children constructing scientific explanations via talk and writing. Grounded in NSF-funded research, this book/DVD provides K-5 teachers with a framework for explanation (Claim, Evidence, Reasoning) that they can use to organize everything from planning to instructional strategies and from scaffolds to assessment. Because the framework addresses not only having students learn scientific explanations but also construct them from evidence and evaluate them, it is considered to build upon the new NRC framework for K-12 science education, the national standards, and reform documents in science education, as well as national standards in literacy around argumentation and persuasion, including the Common Core Standards for English Language Arts (Common Core State Standards Initiative, 2010).The chapters guide teachers step by step through presenting the framework for students, identifying opportunities to incorporate scientific explanation into lessons, providing curricular scaffolds (that fade over time) to support all students including ELLs and students with special needs, developing scientific explanation assessment tasks, and using the information from assessment tasks to inform instruction.
How seeing turns into showing, how empirical observations turn into explanation and evidence. How to produce and consume evidence presentations.
What is required for something to be evidence for a hypothesis? In this fascinating, elegantly written work, distinguished philosopher of science Peter Achinstein explores this question, rejecting typical philosophical and statistical theories of evidence. He claims these theories are much too weak to give scientists what they want--a good reason to believe--and, in some cases, they furnish concepts that mistakenly make all evidential claims a priori. Achinstein introduces four concepts of evidence, defines three of them by reference to "potential" evidence, and characterizes the latter using a novel epistemic interpretation of probability. The resulting theory is then applied to philosophical and historical issues. Solutions are provided to the "grue," "ravens," "lottery," and "old-evidence" paradoxes, and to a series of questions. These include whether explanations or predictions furnish more evidential weight, whether individual hypotheses or entire theoretical systems can receive evidential support, what counts as a scientific discovery, and what sort of evidence is required for it. The historical questions include whether Jean Perrin had non-circular evidence for the existence of molecules, what type of evidence J. J. Thomson offered for the existence of the electron, and whether, as is usually supposed, he really discovered the electron. Achinstein proposes answers in terms of the concepts of evidence introduced. As the premier book in the fabulous new series Oxford Studies in Philosophy of Science, this volume is essential for philosophers of science and historians of science, as well as for statisticians, scientists with philosophical interests, and anyone curious about scientific reasoning.
The basic understanding which underlies scientific evidence - ideas such as the structure of experiments, causality, repeatability, validity and reliability- is not straightforward. But these ideas are needed to judge evidence in school science, in physics or chemistry or biology or psychology, in undergraduate science, and in understanding everyday issues to do with science. It is essential to be able to be critical of scientific evidence. The authors clearly set out the principles of investigation so that the reader will be confident in questioning the experts, making an informed choice or arriving at in informed opinion. The book is intended for a wide range of readers including those who want to: } collect their own evidence } be able to question and judge a wide range of science-based issues that we come across in the press or other media in everyday life } teach others how to understand evidence. This book has been developed from the authors′ work with first year undergraduates in a combined science course and in primary teacher training for science specialists. It is suitable for students training as primary science specialists, and also for ′A′ level and first-year undergraduates in science and science-related subjects.