The Nature of Scientific Thinking


Book Description

Scientific thinking must be understood as an activity. The acts of interpretation, representation, and explanation are the cognitive processes by which scientific thinking leads to understanding. The book explores the nature of these processes and describes how scientific thinking can only be grasped from a pragmatic perspective.




Reef Madness


Book Description

Explores the century-long controversy over the orgins of coral reefs, a debate that split the world of nineteenth-century science, looking at the diverse roles of Louis Agassiz, his son Alexander, and Charles Darwin and reflecting on how the search for the truth shed new light on the formation of Earth and its natural wonders.




The Thinker's Guide to Scientific Thinking


Book Description

The Thinker’s Guide to Scientific Thinking focuses on developing the intellectual skills inherent in the well-cultivated practice of every area of scientific research and study. It helps students and practicing scientists come to reason within the logic of science and to see the field as a cohesive whole. From astronomers to zoologists and physicists to chemists, skilled scientists use careful analysis to question data, test theories, draw logical conclusions, and propose feasible solutions. Students in science courses, and scientists themselves will find their analytical abilities enhanced by the engaging framework of inquiry set forth by Richard Paul and Linda Elder in this guide. As part of the Thinker’s Guide Library, this book advances the mission of the Foundation for Critical Thinking to promote fairminded critical societies through cultivating essential intellectual abilities and virtues across every field of study across world.




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.




The Unnatural Nature of Science


Book Description

Wolpert draws on the entire history of science, from Thales of Miletus to Watson and Crick, from the study of eugenics to the discovery of the double helix. The result is a scientist's view of the culture of science, authoritative, informed, and mercifully accessible to those who find cohabiting with this culture a puzzling experience.




Scientific Thinking


Book Description

Scientific Thinking is a practical guide to inductive reasoning—the sort of reasoning that is commonly used in scientific activity, whether such activity is performed by a scientist, a reporter, a political pollster, or any one of us in day-to-day life. The book provides comprehensive coverage of such topics as confirmation, sampling, correlations, causality, hypotheses, and experimental methods. Martin’s writing confounds those who would think that such topics must be dry-as-dust, presenting ideas in a lively and engaging tone and incorporating amusing examples throughout. This book underlines the importance of acquiring good habits of scientific thinking, and helps to instill those habits in the reader. Stimulating questions and exercises are included in each chapter.




Uncommon Sense


Book Description

Most people believe that science arose as a natural end-product of our innate intelligence and curiosity, as an inevitable stage in human intellectual development. But physicist and educator Alan Cromer disputes this belief. Cromer argues that science is not the natural unfolding of human potential, but the invention of a particular culture, Greece, in a particular historical period. Indeed, far from being natural, scientific thinking goes so far against the grain of conventional human thought that if it hadn't been discovered in Greece, it might not have been discovered at all. In Uncommon Sense, Alan Cromer develops the argument that science represents a radically new and different way of thinking. Using Piaget's stages of intellectual development, he shows that conventional thinking remains mired in subjective, "egocentric" ways of looking at the world--most people even today still believe in astrology, ESP, UFOs, ghosts and other paranormal phenomena--a mode of thought that science has outgrown. He provides a fascinating explanation of why science began in Greece, contrasting the Greek practice of debate to the Judaic reliance on prophets for acquiring knowledge. Other factors, such as a maritime economy and wandering scholars (both of which prevented parochialism) and an essentially literary religion not dominated by priests, also promoted in Greece an objective, analytical way of thinking not found elsewhere in the ancient world. He examines India and China and explains why science could not develop in either country. In China, for instance, astronomy served only the state, and the private study of astronomy was forbidden. Cromer also provides a perceptive account of science in Renaissance Europe and of figures such as Copernicus, Galileo, and Newton. Along the way, Cromer touches on many intriguing topics, arguing, for instance, that much of science is essential complete; there are no new elements yet to be discovered. He debunks the vaunted SETI (Search for Extraterrestrial Intelligence) project, which costs taxpayers millions each year, showing that physical limits--such as the melting point of metal--put an absolute limit on the speed of space travel, making trips to even the nearest star all but impossible. Finally, Cromer discusses the deplorable state of science education in America and suggests several provocative innovations to improve high school education, including a radical proposal to give all students an intensive eighth and ninth year program, eliminating the last two years of high school. Uncommon Sense is an illuminating look at science, filled with provocative observations. Whether challenging Thomas Kuhn's theory of scientific revolutions, or extolling the virtues of Euclid's Elements, Alan Cromer is always insightful, outspoken, and refreshingly original.




The Nature of Cognition


Book Description

This book is the first to introduce the study of cognition in terms of the major conceptual themes that underlie virtually all the substantive topics.




The Psychology of Scientific Inquiry


Book Description

This brief sets out on a course to distinguish three main kinds of thought that underlie scientific thinking. Current science has not agreed on an understanding of what exactly the aim of science actually is, how to understand scientific knowledge, and how such knowledge can be achieved. Furthermore, no science today also explicitly admits the fact that knowledge can be constructed in different ways and therefore every scientist should be able to recognize the form of thought that under-girds their understanding of scientific theory. In response to this, this texts seeks to answer the questions: What is science? What is (scientific) explanation? What is causality and why it matters? Science is a way to find new knowledge. The way we think about the world constrains the aspects of it we can understand. Scientists, the author suggests, should engage in a metacognitive perspective on scientific theory that reflects not only what exists in the world, but also the way the scientist thinks about the world.




Reproducibility and Replicability in Science


Book Description

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.