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Contributions from Science Education Research
In August 2005, over 500 researchers from the field of science education met at the 5th European Science Education Research Association conference. Two of the main topics at this conference were: the decrease in the number of students interested in school science and concern about the worldwide outcomes of studies on students’ scientific literacy. This volume includes edited versions of 37 outstanding papers presented, including the lectures of the keynote speakers.
The Johnstone Triangle
Chemistry is often seen as a difficult subject to understand. This book focusses on the triangle model that Alex H. Johnstone developed in the early 1980s. The model has been applied in almost every area of education in chemistry at all stages of learning.
Proceedings
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How Finns Learn Mathematics and Science
The book tries to explain the Finnish teacher education and school system as well as Finnish children’s learning environment at the level of the comprehensive school, and thus give explanations for the Finnish PISA success. The book is a joint enterprise of Finnish teacher educators.
The Nature of the Chemical Concept
This book offers a step-by-step analysis and discussion of just why some students find chemistry difficult, by examining the nature of chemistry concepts, and how they are communicated and learnt.
Making it relevant
'Teaching in context' has become an accepted, and often welcomed, way of teaching science in both primary and secondary schools. The conference organised by IPN and the University of York Science Education Group, Context-based science curricula, drew on the experience of over 40 science educators and 10 projects. The book is arranged in four parts. Part A consists of two papers, one on situated learning and the other on implementation of new curricula. Part B contains descriptions of five major curricula in different countries, why they were introduced, how they were developed and implemented and evaluation results. Part C gives descriptions of three projects that are of smaller scale and their materials are used as interventions in other more conventional curricula. There is also a contribution on some fundamental research where modules of work are written to examine how best to design context-based curricula. Finally, Part D consist of two chapters, one summarising some of the findings that came out of the chapters in the three earlier parts and the second looks at the future.
Science Education Research in the Knowledge-Based Society
This book offers a global presentation of issues under study for improving science education research in the context of the knowledge-based society at a European and international level. It includes discussions of several theoretical approaches, research overviews, research methodologies, and the teaching and learning of science. It is based on papers presented at the Third International Conference of the European Science Education Research Association (Thessaloniki, Greece, August 2001).
Student Reasoning in Organic Chemistry
Reasoning about structure-reactivity and chemical processes is a key competence in chemistry. Especially in organic chemistry, students experience difficulty appropriately interpreting organic representations and reasoning about the underlying causality of organic mechanisms. As organic chemistry is often a bottleneck for students’ success in their career, compiling and distilling the insights from recent research in the field will help inform future instruction and the empowerment of chemistry students worldwide. This book brings together leading research groups to highlight recent advances in chemistry education research with a focus on the characterization of students’ reasoning and their representational competencies, as well as the impact of instructional and assessment practices in organic chemistry. Written by leaders in the field, Student Reasoning in Organic Chemistry is ideal for chemistry education researchers, instructors and practitioners, and graduate students in chemistry education.
Digital Learning and Teaching in Chemistry
Education is always evolving, and most recently has shifted to increased online or remote learning. Digital Learning and Teaching in Chemistry compiles the established and emerging trends in this field, specifically within the context of learning and teaching in chemistry. This book shares insights about five major themes: best practices for teaching and learning digitally, digital learning platforms, virtual visualisation and laboratory to promote learning in science, digital assessment, and building communities of learners and educators. The authors are chemistry instructors and researchers from nine countries, contributing an international perspective on digital learning and teaching in c...
