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Teaching Inquiry Science in Middle and Secondary Schools
This textbook provides an introduction to inquiry-oriented secondary science teaching methods.
Science Teaching and the Development of Thinking
To provide future science teachers with the methods and tools to present science, this text integrates new methods and theories with more traditional existing programs to meet the needs of almost every instructor. It encourages personal development of critical-thinking skills in students as well as professional development for the future teacher by encouraging establishment of curriculum guidelines. The text also stresses an active learning environment by utilizing learning cycles and in-depth science investigation activities.
The Neurological Basis of Learning, Development and Discovery
A goal of mine ever since becoming an educational researcher has been to help construct a sound theory to guide instructional practice. For far too long, educational practice has suffered because we have lacked firm instructional guidelines, which in my view should be based on sound psychological theory, which in turn should be based on sound neurological theory. In other words, teachers need to know how to teach and that "how-to-teach" should be based solidly on how people learn and how their brains function. As you will see in this book, my answer to the question of how people learn is that we all learn by spontaneously generating and testing ideas. Idea generating involves analogies and testing requires comparing predicted consequences with actual consequences. We learn this way because the brain is essentially an idea generating and testing machine. But there is more to it than this. The very process ofgenerating and testing ideas results not only in the construction of ideas that work (i. e. , the learning of useful declarative knowledge), but also in improved skill in learning (i. e. , the development of improved procedural knowledge).
Teaching Inquiry Science in Middle and Secondary Schools
Provides solutions for using inquiry-based teaching while meeting standards This compelling new text practices what it preaches—it uses the inquiry approach to teach the inquiry approach. The book is developed around six key questions: 1. What is science? 2. Why teach science? 3. What is the nature of scientific knowledge? 4. How do scientists construct knowledge? 5. How do people develop effective reasoning patterns? 6. What teaching methods best facilitate scientific knowledge acquisition? Key Features Focus on inquiry teaching methods: This text shows teachers how to use inquiry-based teaching in a standards-based environment. Practical examples: Several examples of inquiry lessons are provided, along with examples of classroom management techniques, lesson planning procedures, and effective evaluation procedures. Research-based content: Written by a leader in the field, the book includes current and important research to frame the examples and methods. Ancillaries A password-protected instructor resources site includes PowerPoint slides for each chapter, a test bank, chapter outlines with notes, Internet resources, and sample assignments.
Science Teaching
Science Teaching argues that science teaching and science teacher education can be improved if teachers know something of the history and philosophy of science and if these topics are included in the science curriculum. The history and philosophy of science have important roles in many of the theoretical issues that science educators need to address: what constitutes an appropriate science curriculum for all students; how science should be taught in traditional cultures; how scientific literacy can be promoted; and the conflict which can occur between science curriculum and deep-seated religious or cultural values and knowledge. Outlining the history of liberal approaches to the teaching of science, Michael Matthews elaborates contemporary curriculum developments that explicitly address questions about the nature and the history of science. He provides examples of classroom teaching and develops useful arguments on constructivism, multicultural science education and teacher education.
The Nature of Life
This lab manual is designed for A Level and first-year undergraduate students of general biology. It is split into 40 separate experiments, all of which have been designed to enhance students' deductive and reasoning powers. Pupils are expected to describe the results of the experiments, reason why they acheived these results and be prepared to explain the biological processes that have occurred.
Constructivism in Science Education
Constructivism is one of the most influential theories in contemporary education and learning theory. It has had great influence in science education. The papers in this collection represent, arguably, the most sustained examination of the theoretical and philosophical foundations of constructivism yet published. Topics covered include: orthodox epistemology and the philosophical traditions of constructivism; the relationship of epistemology to learning theory; the connection between philosophy and pedagogy in constructivist practice; the difference between radical and social constructivism, and an appraisal of their epistemology; the strengths and weaknesses of the Strong Programme in the sociology of science and implications for science education. The book contains an extensive bibliography. Contributors include philosophers of science, philosophers of education, science educators, and cognitive scientists. The book is noteworthy for bringing this diverse range of disciplines together in the examination of a central educational topic.
Learning and Motivation in the Classroom
Throughout the twentieth century there had been substantial links between scientific psychology and education. Binet, Dewey, Thorndike, and other early pioneers were strongly interested in both realms. Taking advantage of a period of enthusiasm, this title, originally published in 1983, looks at the amalgamation of the recent advances at the time in theory and research in education and psychology, with a particular focus on cognition, motivation and social policy. This volume presents and discusses the implications of this work on learning and motivation for educational policy.
The Nature of Reasoning
We are bombarded with information - press releases, television news, Internet websites, and office memos, just to name a few - on a daily basis. However, the important conclusions that may or need to be inferred from such information are typically not provided. We must draw the conclusions by ourselves. How do we draw these conclusions? This book addresses how we reason to reach sensible conclusions. The purpose of this book is to organize in one volume what is known about reasoning, such as its structural prerequisites, its mechanisms, its susceptibility to pragmatic influences, its pitfalls, and the bases for its development. Given that reasoning underlies so many of our intellectual activities - when we learn, criticize, analyze, judge, infer, evaluate, optimize, apply, discover, imagine, devise, and create - we stand to gain a great deal if we can learn to define, operate, apply, and nurture our reasoning.
Mozart
An analysis of Mozart's Clarinet Concerto - of supreme importance as the composer's last instrumental work.
