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In the science classroom, there are some ideas that are as difficult for young students to grasp as they are for teachers to explain. Forces, electricity, light, and basic astronomy are all examples of conceptual domains that come into this category. How should a teacher teach them? The authors of this monograph reject the traditional separation of subject and pedagogic knowledge. They believe that to develop effective teaching for meaningful learning in science, we must identify how teachers themselves interpret difficult ideas in science and, in particular, what supports their own learning in coming to a professional understanding of how to teach science concepts to young children. To do so, they analyzed trainee and practising teachers’ responses to engaging with difficult ideas when learning science in higher education settings. The text demonstrates how professional insight emerges as teachers identify the elements that supported their understanding during their own learning. In this paradigm, professional awareness derives from the practitioner interrogating their own learning and identifying implications for their teaching of science. The book draws on a significant body of critically analysed empirical evidence collated and documented over a five-year period involving large numbers of trainee and practising teachers. It concludes that it is essential to ‘problematize’ subject knowledge, both for learner and teacher. The book’s theoretical perspective draws on the field of cognitive psychology in learning. In particular, the role of metacognition and cognitive conflict in learning are examined and subsequently applied in a range of contexts. The work offers a unique and refreshing approach in addressing the important professional dimension of supporting teacher understanding of pedagogy and critically examines assumptions in contemporary debates about constructivism in science education.
WHAT IS SCIENCE? Science is a domain of inquiry. The organized knowledge with inquiry, logical reasoning and experimentation as its central themes, that we call science. NATURE OF SCIENCE Nature of science is defined by certain characteristics which distinguish it from other spheres of human endeavor. These are discussed below Science is a particular way of looking at nature A morning walker looks at the rising sun, pays obeisance to the sun-god, for bestowing the earth with light and energy. Another walker with a scientific bent of mind or scientific attitude tries to understand the process of energy generation
Studies examining the ways in which the training of engineers and scientists shapes their research strategies and scientific identities.
The book titled teaching of Physical Science is a complete text-cum-reference book for all the science pupil-teachers who are pursuing their B.Ed in any teacher-training institutes. This book includes all the latest prescribed contents. It highlights the methodologies, strategies, and techniques for teaching physical sciences. It focuses on the main points for preparing lesson plans and micro-lesson plans. A sufficient emphasis has been given to the pedagogical analysis with various examples. It also includes the latest concept of NEP 2020 including holistic development and experiential learning. This book also covers the latest blended learning teaching strategy and online learning that had been prevalent during COVID time. If any suggestion for the improvement of the contents will be appreciated. Feedback about the book can be given on [email protected]
With All The Characteristics Of An Ideal Textbook For Teaching Physical Science, This Book Is A Must For Every Keen Student Of The Subject.
This book on the teaching and learning of physics is intended for college-level instructors, but high school instructors might also find it very useful.Some ideas found in this book might be a small 'tweak' to existing practices whereas others require more substantial revisions to instruction. The discussions of student learning herein are based on research evidence accumulated over decades from various fields, including cognitive psychology, educational psychology, the learning sciences, and discipline-based education research including physics education research. Likewise, the teaching suggestions are also based on research findings. As for any other scientific endeavor, physics education research is an empirical field where experiments are performed, data are analyzed and conclusions drawn. Evidence from such research is then used to inform physics teaching and learning.While the focus here is on introductory physics taken by most students when they are enrolled, however, the ideas can also be used to improve teaching and learning in both upper-division undergraduate physics courses, as well as graduate-level courses. Whether you are new to teaching physics or a seasoned veteran, various ideas and strategies presented in the book will be suitable for active consideration.
Contents: Introduction, The Correlation, The Attitudes, The Concept, Objectives and Aims, Role of Teacher, Teaching Aids, Teaching Methods-1, Teaching Methods-2, Planning Lessons, Process of Enrichment, The Curriculum, Process of Evaluation, The Laboratories, Science Club.
How do tiny bugs get into oatmeal? What makes children look like-- or different from-- their parents? Where do rotten apples go after they fall off the tree? By presenting everyday mysteries like these, this book will motivate your students to carry out hands-on science investigations and actually care about the results. These 20 open-ended mysteries focus exclusively on biological science, including botany, human physiology, zoology, and health. The stories come with lists of science concepts to explore, grade-appropriate strategies for using them, and explanations of how the lessons align with national standards. They also relieve you of the tiring work of designing inquiry lessons from scratch. " What makes this book so special is the unique way science is integrated into the story line, using characters and situations children can easily identify with." -- Page Keeley, author of the NSTA Press series Uncovering Student Ideas in Science
2018 Outstanding Academic Title, Choice Ambitious Science Teaching outlines a powerful framework for science teaching to ensure that instruction is rigorous and equitable for students from all backgrounds. The practices presented in the book are being used in schools and districts that seek to improve science teaching at scale, and a wide range of science subjects and grade levels are represented. The book is organized around four sets of core teaching practices: planning for engagement with big ideas; eliciting student thinking; supporting changes in students’ thinking; and drawing together evidence-based explanations. Discussion of each practice includes tools and routines that teachers can use to support students’ participation, transcripts of actual student-teacher dialogue and descriptions of teachers’ thinking as it unfolds, and examples of student work. The book also provides explicit guidance for “opportunity to learn” strategies that can help scaffold the participation of diverse students. Since the success of these practices depends so heavily on discourse among students, Ambitious Science Teaching includes chapters on productive classroom talk. Science-specific skills such as modeling and scientific argument are also covered. Drawing on the emerging research on core teaching practices and their extensive work with preservice and in-service teachers, Ambitious Science Teaching presents a coherent and aligned set of resources for educators striving to meet the considerable challenges that have been set for them.