Theory and Evidence


Book Description

Koslowski boldly criticizes many of the currently classic studies and musters a compelling set of arguments, backed by an exhaustive set of experiments carried out during the last decade.




The Limits of Scientific Reasoning


Book Description

The Limits of Scientific Reasoning was first published in 1984. Minnesota Archive Editions uses digital technology to make long-unavailable books once again accessible, and are published unaltered from the original University of Minnesota Press editions. The study of human judgment and its limitations is essential to an understanding of the processes involved in the acquisition of scientific knowledge. With that end in mind, David Faust has made the first comprehensive attempt to apply recent research on human judgment to the practice of science. Drawing upon the findings of cognitive psychology, Faust maintains that human judgment is far more limited than we have tended to believe and that all individuals - scientists included—have a surprisingly restricted capacity to interpret complex information. Faust's thesis implies that scientists do not perform reasoning tasks, such as theory evaluation, as well as we assume they do, and that there are many judgments the scientist is expected to perform but cannot because of restrictions in cognitive capacity. "This is a very well-written, timely, and important book. It documents and clarifies, in a very scholarly fashion, what sociologists and psychologists of science have been flirting with for several decades—namely, inherent limitations of scientific judgment," –Michael Mahoney, Pennsylvania State University David Faust is director of psychology at Rhode Island Hospital and a faculty member of the Brown University Medical School. He is co-author of Teaching Moral Reasoning: Theory and Practice.




Scientific Reasoning and Argumentation


Book Description

Competence in scientific reasoning is one of the most valued outcomes of secondary and higher education. However, there is a need for a deeper understanding of and further research into the roles of domain-general and domain-specific knowledge in such reasoning. This book explores the functions and limitations of domain-general conceptions of reasoning and argumentation, the substantial differences that exist between the disciplines, and the role of domain-specific knowledge and epistemologies. Featuring chapters and commentaries by widely cited experts in the learning sciences, educational psychology, science education, history education, and cognitive science, Scientific Reasoning and Argumentation presents new perspectives on a decades-long debate about the role of domain-specific knowledge and its contribution to the development of more general reasoning abilities.




Model-Based Reasoning in Scientific Discovery


Book Description

The volume is based on the papers that were presented at the Interna tional Conference Model-Based Reasoning in Scientific Discovery (MBR'98), held at the Collegio Ghislieri, University of Pavia, Pavia, Italy, in December 1998. The papers explore how scientific thinking uses models and explanatory reasoning to produce creative changes in theories and concepts. The study of diagnostic, visual, spatial, analogical, and temporal rea soning has demonstrated that there are many ways of performing intelligent and creative reasoning that cannot be described with the help only of tradi tional notions of reasoning such as classical logic. Traditional accounts of scientific reasoning have restricted the notion of reasoning primarily to de ductive and inductive arguments. Understanding the contribution of model ing practices to discovery and conceptual change in science requires ex panding scientific reasoning to include complex forms of creative reasoning that are not always successful and can lead to incorrect solutions. The study of these heuristic ways of reasoning is situated at the crossroads of philoso phy, artificial intelligence, cognitive psychology, and logic; that is, at the heart of cognitive science. There are several key ingredients common to the various forms of model based reasoning to be considered in this book. The models are intended as in terpretations of target physical systems, processes, phenomena, or situations. The models are retrieved or constructed on the basis of potentially satisfying salient constraints of the target domain.




God Without the Supernatural


Book Description

Peter Forrest expounds a program of best-explanation apologetics. He contends that since the existence of God would provide the best possible explanation of various facts, those facts support theism. Among the facts cited are the suitability of the universe for life, the regularity of the universe, the human capacity for intellectual progress, the experience of a moral order, and various forms of beauty. The beauty that interests Forrest as evidence for the existence of God includes sensuous beauty; the beauty of the natural order, as revealed by the sciences; and the beauty of necessity discovered by mathematicians. In addressing the need for an adequate motive for creation, Forrest conjectures that God created the universe for embodied persons not for their life on earth alone but also for an afterlife. Forrest acknowledges the speculative nature of such an account. He suggests that philosophical speculation is also required to defend theism against the charge that it is too extravagant a hypothesis to be warranted. Providing a speculative defense against the argument from evil, he explains how such speculations can be used to support best-explanation arguments without the conclusions themselves being rendered purely speculative.




Redefining Scientific Thinking for Higher Education


Book Description

This book examines the learning and development process of students’ scientific thinking skills. Universities should prepare students to be able to make judgements in their working lives based on scientific evidence. However, an understanding of how these thinking skills can be developed is limited. This book introduces a new broad theory of scientific thinking for higher education; in doing so, redefining higher-order thinking abilities as scientific thinking skills. This includes critical thinking and understanding the basics of science, epistemic maturity, research and evidence-based reasoning skills and contextual understanding. The editors and contributors discuss how this concept can be redefined, as well as the challenges educators and students may face when attempting to teach and learn these skills. This edited collection will be of interest to students and scholars of student scientific skills and higher-order thinking abilities.




Teaching Science Thinking


Book Description

Teach your students how to think like scientists. This book shows you practical ways to incorporate science thinking in your classroom using simple "Thinking Tasks" that you can insert into any lesson. What is science thinking and how can you possibly teach and assess it? How is science thinking incorporated into the Next Generation Science Standards (NGSS) and how can it be weaved into your curriculum? This book answers these questions. This practical book provides a clear, research-verified framework for helping students develop scientific thinking as required by the NGSS. Your students will not be memorizing content but will become engaged in the real work scientists do, using critical thinking patterns such as: Recognizing patterns, Inventing new hypotheses based on observations, Separating causes from correlations, Determining relevant variables and isolating them, Testing hypotheses, and Thinking about their own thinking and the relative value of evidence. The book includes a variety of sample classroom activities and rubrics, as well as frameworks for creating your own tools. Designed for the busy teacher, this book also shows you quick and simple ways to add deep science thinking to existing lessons.




Applying Scientific Reasoning to the Field of Marketing


Book Description

Marketing decisions often misfire when driven more by beliefs than by knowledge. This book will guide you on how to differentiate between the two and to think more clearly and correctly when making those decisions, thereby increasing organizational success. The author has based this book on the fields of epistemology—the study of how knowledge is created—and the philosophy of science— the study of what it means for a science to be called a science. The motivation behind the book is quite simple: Given that science is so successful, why shouldn’t marketers borrow thinking and reasoning skills from science and apply them to marketing? Indeed, why not? The book details the groundwork for learning how to apply scientific reasoning to the field of marketing, such as some basic and important definitions (“What is a belief?” “What is knowledge?”), and identifies barriers to scientific reasoning, giving an example from the Dow Chemical Company and just how Dow uses critical thinking and reasoning skills to make more effective marketing and business decisions. You’ll also learn some real “thinking tools” you will need to apply scientific reasoning to solving your marketing problems. It introduces topics relating to attributes versus constructs, the meaning of causation, the relationship between coherence and justified beliefs, the importance of logic to sound reasoning, and the avoidance of logical fallacies in making sound recommendations. The book concludes by giving you direction to further improve your ability to apply scientific reasoning to solving marketing problems.




Science and Judicial Reasoning


Book Description

This pioneering study on environmental case-law examines how courts engage with science and reviews legitimate styles of judicial reasoning.




Philosophy of Technology and Engineering Sciences


Book Description

The Handbook Philosophy of Technology and Engineering Sciences addresses numerous issues in the emerging field of the philosophy of those sciences that are involved in the technological process of designing, developing and making of new technical artifacts and systems. These issues include the nature of design, of technological knowledge, and of technical artifacts, as well as the toolbox of engineers. Most of these have thus far not been analyzed in general philosophy of science, which has traditionally but inadequately regarded technology as mere applied science and focused on physics, biology, mathematics and the social sciences. - First comprehensive philosophical handbook on technology and the engineering sciences - Unparalleled in scope including explorative articles - In depth discussion of technical artifacts and their ontology - Provides extensive analysis of the nature of engineering design - Focuses in detail on the role of models in technology