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You will find this book interesting: Chemistry concepts presented in a diagrammatic form. Specially written to ease learning and to stimulate interest in Chemistry, this book will help students in acquiring and reinforcing Chemistry concepts, and especially the difficult ones, more easily and effectively. This book makes learning easier through the following features: Learning Outcomes - Learning outcomes on the header point out the concepts that you should focus on in the process of learning. Important Concepts and Key Terms - The important concepts and key terms are presented clearly in simple language. Further explanations linked to the diagrams help you better understand the concepts. Interesting Visuals - Visual aids such as concept maps, flow charts and annotated diagrams are integrated to make the concepts easier to understand and remember. Real-life Examples - These examples show real-life application of concepts and explain the inquiries on the phenomena that happen in our everyday lives. Worked Examples - Step-by-step worked examples help to reinforce your skills in solving problems. Instant Facts - These are extra information that can help you acquire a more in-depth understanding of the topic under discussion. This book complements the school curriculum and will certainly help in your preparation for the examinations.
You will find this book interesting: Chemistry concepts presented in a diagrammatic form. Specially written to ease learning and to stimulate interest in Chemistry, this book will help students in acquiring and reinforcing Chemistry concepts, and especially the difficult ones, more easily and effectively. This book makes learning easier through the following features: Learning Outcomes - Learning outcomes on the header point out the concepts that you should focus on in the process of learning. Important Concepts and Key Terms - The important concepts and key terms are presented clearly in simple language. Further explanations linked to the diagrams help you better understand the concepts. Interesting Visuals - Visual aids such as concept maps, flow charts and annotated diagrams are integrated to make the concepts easier to understand and remember. Real-life Examples - These examples show real-life application of concepts and explain the inquiries on the phenomena that happen in our everyday lives. Worked Examples - Step-by-step worked examples help to reinforce your skills in solving problems. Instant Facts - These are extra information that can help you acquire a more in-depth understanding of the topic under discussion. This book complements the school curriculum and will certainly help in your preparation for the examinations.
Chemistry seeks to provide qualitative and quantitative explanations for the observed behaviour of elements and their compounds. Doing so involves making use of three types of representation: the macro (the empirical properties of substances); the sub-micro (the natures of the entities giving rise to those properties); and the symbolic (the number of entities involved in any changes that take place). Although understanding this triplet relationship is a key aspect of chemical education, there is considerable evidence that students find great difficulty in achieving mastery of the ideas involved. In bringing together the work of leading chemistry educators who are researching the triplet relationship at the secondary and university levels, the book discusses the learning involved, the problems that students encounter, and successful approaches to teaching. Based on the reported research, the editors argue for a coherent model for understanding the triplet relationship in chemical education.
Chemistry is a subject that has the power to engage and enthuse students but also to mystify and confound them. Effective chemistry teaching requires a strong foundation of subject knowledge and the ability to transform this into teachable content which is meaningful for students. Drawing on pedagogical principles and research into the difficulties that many students have when studying chemical concepts, this essential text presents the core ideas of chemistry to support new and trainee chemistry teachers, including non-specialists. The book focuses on the foundational ideas that are fundamental to and link topics across the discipline of chemistry and considers how these often complex notions can be effectively presented to students without compromising on scientific authenticity. Chapters cover: the nature of chemistry as a science the chemistry triplet substances and purity in chemistry the periodic table energy in chemistry and chemical bonding contextualising and integrating chemical knowledge Whilst there are a good many books describing chemistry and many others that offer general pedagogic guidance on teaching science, Foundations for Teaching Chemistry provides accounts of core chemical topics from a teaching perspective and offers new and experienced teachers support in developing their own ‘chemical knowledge for teaching’.
This book examines the diverse use of visual representations by teachers in the science classroom. It contains unique pedagogies related to the use of visualization, presents original curriculum materials as well as explores future possibilities. The book begins by looking at the significance of visual representations in the teaching of science. It then goes on to detail two recent innovations in the field: simulations and slowmation, a process of explicit visualization. It also evaluates the way teachers have used different diagrams to illustrate concepts in biology and chemistry. Next, the book explores the use of visual representations in culturally diverse classrooms, including the implication of culture for teachers’ use of representations, the crucial importance of language in the design and use of visualizations and visualizations in popular books about chemistry. It also shows the place of visualizations in the growing use of informal, self-directed science education. Overall, the book concludes that if the potential of visualizations in science education is to be realized in the future, the subject must be included in both pre-service and in-service teacher education. It explores ways to develop science teachers’ representational competence and details the impact that this will have on their teaching. The worldwide trend towards providing science education for all, coupled with the increased availability of color printing, access to personal computers and projection facilities, has lead to a more extensive and diverse use of visual representations in the classroom. This book offers unique insights into the relationship between visual representations and science education, making it an ideal resource for educators as well as researchers in science education, visualization and pedagogy.
This book is a compilation of papers from the inaugural International Science Education Conference held at the National Institute of Education (Singapore). The title, Science Education at the Nexus of Theory and Practice, reflects a pressing yet ongoing concern worldwide to integrate theory and practice in science education and the reader will find something of interest to both science education practitioners and researchers.
This book brings together powerful ideas and new developments from internationally recognised scholars and classroom practitioners to provide theoretical and practical knowledge to inform progress in science education. This is achieved through a series of related chapters reporting research on analogy and metaphor in science education. Throughout the book, contributors not only highlight successful applications of analogies and metaphors, but also foreshadow exciting developments for research and practice. Themes include metaphor and analogy: best practice, as reasoning; for learning; applications in teacher development; in science education research; philosophical and theoretical foundations. Accordingly, the book is likely to appeal to a wide audience of science educators –classroom practitioners, student teachers, teacher educators and researchers.
This book illustrates the problems of using eye tracking technology and other bio-measurements in science education research. It examines the application of bio-measurements in researching cognitive processes, motivation for learning science concepts, and solving science problems. Most chapters of this book use the eye-tracking method, which enables following the focus of the students’ attention and drawing conclusions about the strategies they used to solve the problem. This book consists of a total of fifteen chapters. Authors from eight countries emphasise the same trends despite their cultural and educational differences. The book begins with general chapters describing cognitive processes and how these processes are measured using eye-tracking methods and other psychophysiology parameters and motivation. Finally, the book concludes the chapters presenting studies in specific scientific fields from chemistry, biology, physics and geology.
William Wordsworth (1770-1850) needs little introduction as the central figure in Romantic poetry and a crucial influence in the development of poetry generally. This broad-ranging survey redefines the variety of his writing by showing how it incorporates contemporary concepts of language difference and the ways in which popular and serious literature were compared and distinguished during this period. It discusses many of Wordsworth's later poems, comparing his work with that of his regional contemporaries as well as major writers such as Scott. The key theme of relationship, both between characters within poems and between poet and reader, is explored through Wordsworth's construction of community and his use of power relationships. A serious discussion of the place of sexual feeling in his writing is also included.