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Physics Education research is a young field with a strong tradition in many countries. However, it has only recently received full recognition of its specificity and relevance for the growth and improvement of the culture of Physics in contemporary Society for different levels and populations. This may be due on one side to the fact that teaching, therefore education, is part of the job of university researchers and it has often been implicitly assumed that the competences required for good research activity also guarantee good teaching practice. On the other side, and perhaps more important, is the fact that the problems to be afforded in doing research in education are complex problems tha...
The research in Physics Education has to do with the search of solutions to the complex problem of how to improve the learning and teaching of physics. The complexity of the problem lies in the different fields of knowledge that need to be considered in the research. In fact, besides the disciplinary knowledge in physics (which must be considered from the conceptual, the historical, and the epistemological framework), one has to take into account some basic knowledge in the context of psychology and the cognitive sciences (for the general and contextual aspects of learning) and some basic knowledge in education and comunication (for what concerns teaching skills and strategies). Looking back...
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).
This book constitutes the refereed proceedings of the 15th International Conference on Principles of Distributed Systems, OPODIS 2011, held in Toulouse, France, in December 2011. The 26 revised papers presented in this volume were carefully reviewed and selected from 96 submissions. They represent the current state of the art of the research in the field of the design, analysis and development of distributed and real-time systems.
A group of science educators with experience of being involoved in curriculum development, and in conducting extensive research on many aspects of teaching and learning science, have combined their findings in this volume.; Each author has conducted research into his or her own area of science education and presents the implications of this research for a specific area of science teaching. The experiences of members of the Monash Children's Science Group; specifically three primary teachers and one biology teacher, have also been included so as to present the voices of teachers for whom writing a personal account of their teaching is often an unappealing task.
Nations around the globe consider physics education an important tool of economic and social development and currently advocate the use of innovative strategies to prepare students for knowledge and skills acquisition. Particularly in the last decade, a series of revisions were made to physics curricula in an attempt to cope with the changing needs and expectations of society. Educational transformation is a major challenge due to educational systems’ resistance to change. Updated curriculum content, pedagogical facilities (for example, computers in a school), new teaching and learning strategies and the prejudice against girls in physics classes are all issues that have to be addressed. Educational research provides a way to build schemas and resources to promote changes in physics education. This volume presents physics teaching and learning research connected with the main educational scenarios.
This book constitutes the thoroughly refereed post-conference proceedings of the 20th International Colloquium on Structural Information and Communication Complexity, SIROCCO 2013, held in Ischia, Italy, in July 2013. The 28 revised full papers presented were carefully reviewed and selected from 67 submissions. SIROCCO is devoted to the study of communication and knowledge in distributed systems. Special emphasis is given to innovative approaches and fundamental understanding, in addition to efforts to optimize current designs. The typical areas include distributed computing, communication networks, game theory, parallel computing, social networks, mobile computing (including autonomous robots), peer to peer systems, communication complexity, fault tolerant graph theories and randomized/probabilistic issues in networks.
First published in 1994. Leading scholars in science education from eight countries on four continents and ex-pert practising science teachers (primary and secondary) wrote about the teaching and learning of particular science content or skills, and hence how different science content requires different sorts of teaching and learning. Having shared the papers, they then met to discuss them and subsequently revised them. The result is a coherent set of chapters that share valuable insights about the teaching and learning of science. Some chapters consider the detail of specific topics (e.g. floating and sinking, soil and chemical change), some describe innovative procedures, others provide powerful theory. Together they provide a comprehensive analysis of constructivist learning and teaching implications.
Includes section, "Recent book acquisitions" (varies: Recent United States publications) formerly published separately by the U.S. Army Medical Library.
The book constitutes the refereed proceedings of the First International Conference on Distributed Computing in Sensor Systems, DCOSS 2005, held in Marina del Rey, California, USA in June/July 2005. The 26 revised full papers presented were carefully reviewed and selected from 85 submissions; also included are the abstracts of 3 invited talks, 2 short papers, 9 invited poster abstracts, and 10 contributed abstracts.The papers address all current aspects of distributed computing issues in large-scale networked sensor systems, including systematic design techniques and tools, algorithms, and applications.