Browse results

You are looking at 1 - 10 of 44 items for :

  • Science Education x
  • Status (Books): Temporarily Out of Stock x
Clear All

Series:

Edited by Alberto J. Rodriguez

In this era of mandated high stakes and standardized testing, teachers and schools officials find themselves struggling to meet the demands for improved student achievement. At the same time, they are also expected to teach all subjects as required by national and state curriculum standards. Because of these competing demands, science is not even taught or taught less often in order to make more room for mathematics and language arts “drill and practice” and “teaching to the test.” Anyone concerned with providing students with a well-rounded education should ask whether these drastic measures—even if they were to show improvement in achievement—justify denying children access to the unique opportunities for intellectual growth and social awareness that the effective instruction of science provides. Will these students have enough exposure to the science curriculum to prepare them to do well later in middle and high school? How is this current situation going to help ameliorate the pervasive achievement gap in science, and how is it going to motivate students to pursue science-related careers?
The authors of this book believe that instead of sacrificing the science curriculum to make more time for drill and practice in mathematics and language arts, what should be done is to connect current research on literacy and science instruction with effective pedagogy. Therefore, this volume provides fresh theoretical insights and practical applications for better understanding how science can be used as a pathway to teaching literacy, and hence, as a pathway to improving teachers’ practice and students’ learning.

The World of Science Education

Science Education in Asia

Series:

Edited by Yew-Jin Lee

Each volume in the 7-volume series The World of Science Education reviews research in a key region of the world. These regions include North America, South and Latin America, Asia, Australia and New Zealand, Europe and Israel, Arab States, and Sub-Saharan Africa.
The focus of this Handbook is on science education in Asia and the scholarship that most closely supports this program. The reviews of the research situate what has been accomplished within a given field in an Asian rather than an international context. The purpose therefore is to articulate and exhibit regional networks and trends that produced specific forms of science education. The thrust lies in identifying the roots of research programs and sketching trajectories—focusing the changing façade of problems and solutions within regional contexts. The approach allows readers to review what has been done and accomplished, what is missing and what might be done next.

The continuum of secondary science teacher preparation

Knowledge, questions, and research recommendations

Edited by Angelo Collins and Nicole Gillespie

The mission of the Knowles Science Teaching Foundation (KSTF), to increase the quantity of high quality high school science and mathematics teachers in United States High Schools, calls for a deeper understanding of what it takes to prepare and support successful teachers. On September 21, 2006, KSTF convened a group of 41 individuals with a broad range of perspectives and expertise to address three essential questions with regard to secondary science teacher preparation: What do we know, what do we need to find out, and what research will help us fill in the gaps? Participants were intentionally selected from a diverse cross section of the education community and included teachers, educational researchers, teacher educators, policy specialists and scientists. The 41 participants formed 12 working groups and spent two and a half days addressing the following aspects of teacher preparation:
· recruitment and retention; · models of secondary science teacher preparation; · pedagogic preparation including field-based experiences, methods courses, and preparing teachers for diverse populations; · content preparation in biology, chemistry, Earth science, and physics as well as the nature of science in general; · induction; · mentoring.
Each working group was tasked with synthesizing their discussions and conclusions for the entire group of conference participants and in a written document. This volume represents the final outcome of that conference; 12 chapters that reflect the work of 40 dedicated scholars and practitioners who share a deep commitment to the pursuit of excellence in the preparation of secondary science teachers.

Dialogism

A Bakhtinian Perspective on Science and Learning

Series:

Wolff-Michael Roth

In this book, Wolff-Michael Roth takes a 38-minute conversation in one science classroom as an occasion for analyzing learning and development from a perspective by and large inspired by the works of Mikhail Bakhtin but also influenced by Lev Vygotsky and 20th century European phenomenology and American pragmatism. He throws a new and very different light on the nature and use of language in science classroom, and its transformation. In so doing, he not only exposes the weaknesses of existing theoretical frameworks, including radical and social constructivism, but also exhibits problems in his own previous thinking about knowing and learning in science classrooms. The book particularly addresses issues normally out of the light of sight of science education research, including the material bodily principle, double-voicedness, laughter, coarse language, swearing, the carnal and carnivalistic aspects of life, code-switching, and the role of vernacular in the transformation of scientific language. The author suggests that only a unit of analysis that begins with the fullness of life, singular, unique, and once-occurrent Being, allows an understanding of learning and development, emotion and motivation, that is, knowing science in its relation to the human condition writ large. In this, the book provides responses to questions that conceptual change research, for example, is unable to answer, for example, the learning paradox, the impossibility to eradicate misconceptions, and the resistance of teachers to take a conceptual change position.

Series:

Edited by David B. Zandvliet

Research in environmental education (EE) is a growing field of inquiry and should be seen as respondent to a variety of program developments around the world. These diverse programs are the context for this body of educational research. Diversity in EE research is also compounded when one considers the various cultures, epistemologies and research traditions that may inform the field. This complexity accounts for the range of forms for environmental learning in formal, informal or non-formal contexts.
There is a good deal of evidence that, in order to be more responsive to the needs of diverse populations, program developments around the world are now beginning to reflect the variation in our society. However, the same cannot always be said in terms of research methodologies within mainstream environmental education research. Outside of a few examples, there seems to have been very little in the way of development of research genres aimed at understanding, characterizing and supporting cultural diversity within much of mainstream environmental education. Diversity of method may also be important for the overall quality (or health) of environmental education research. To locate many of the new ideas and approaches in this area, one needs to look outside environmental education, towards general educational research, or to other fields such as environmental justice, indigenous education, science education and health education to name only a few examples.
This volume of original research reports from around the globe begins to richly describe aspects of diversity in environmental education research. It does so in two ways: first, it mirrors the diversity of voices and cultures that are conducting research in this ever-broadening and increasingly global and international field of inquiry, second: it illuminates a potential diversity of research methods by highlighting a range of methodologies salient in other fields which have emerging promise for the practice of research in environmental education.

The World of Science Education

Handbook of Research in North America

Series:

Edited by Wolff-Michael Roth and Kenneth Tobin

Each volume in the 7-volume series The World of Science Education reviews research in a key region of the world. These regions include North America, South and Latin America, Asia, Australia and New Zealand, Europe and Israel, North Africa and the Middle East, and Sub-Saharan Africa.
The focus of this Handbook is on North American (Canada, US) science education and the scholarship that most closely supports this program. The reviews of the research situate what has been accomplished within a given field in North American rather an than international context. The purpose therefore is to articulate and exhibit regional networks and trends that produced specific forms of science education. The thrust lies in identifying the roots of research programs and sketching trajectories—focusing the changing façade of problems and solutions within regional contexts. The approach allows readers review what has been done and accomplished, what is missing, and what might be done next.

The World of Science Education

Handbook of Research in the Arab States

Series:

Edited by Saouma BouJaoude and Zoubeida R. Dagher

Each volume in the 7-volume series The World of Science Education reviews research in a key region of the world. These regions include North America, South and Latin America, Asia, Australia and New Zealand, Europe and Israel, Arab States, and Sub-Saharan Africa.
The focus of this Handbook is on science education in Arab states and the scholarship that most closely supports this program. The reviews of the research situate what has been accomplished within a given field in an Arab rather than an international context. The purpose therefore is to articulate and exhibit regional networks and trends that produced specific forms of science education. The thrust lies in identifying the roots of research programs and sketching trajectories—focusing the changing façade of problems and solutions within regional contexts. The approach allows readers to review what has been done and accomplished, what is missing and what might be done next.

Authentic Science Revisited

In Praise of Diversity, Heterogeneity, Hybridity

Series:

Wolff-Michael Roth, Michiel van Eijck, Giuliano Reis and Pei-Ling Hsu

Since its appearance in 1995, Authentic School Science has been a resource for many teachers and schools to rethink and change what they are doing in and with their science classrooms. As others were trying to implement the kinds of learning environments that we had described, our own thinking and teaching praxis changed in part because of our dissatisfaction with our own understanding. Over the years, we have piloted ever-new ways of organizing science lessons to figure out what works and how both successful and not-so-successful ways of doing science education should be theorized. In this period, we developed a commitment to cultural-historical activity theory, which does not dichotomize individual and collective, social and material, embodied and cultural forms of knowing, and so on. It turns out now that the problem does not lie with the level of agreement between school science and laboratory science but with the levels of control, authority, mastery, and authorship that students are enabled to exercise. Thus, as this book shows, even field trips may deprive students of science authenticity on outdoor activities and even classroom-based science may provide opportunities for doing science in an authentic manner, that is, with high levels of control over the learning environment, authority, master, and authorship. Ultimately, our understanding of authenticity emphasizes its heterogeneous nature, which we propose to think in terms of a different ontology, an ontology of difference, which takes mixtures, heterogeneity, and hybridity as its starting point rather than as poor derivatives of self-same, pure entities including science, scientific concepts, and scientific practice. In Authentic Science Revisited, the authors offer a refreshing new approach to theorizing, thinking, and doing authentic science.

Scott D. Robinson

A Contemporary Autobiography of a Science Educator reminds readers that they teach who they are, and understanding who they are is fundamental for meaningful communication and effective classroom instruction. The book is for science educators, teacher educators, and others who wish to examine their own personal and professional identities in the social and cultural contexts in which their lives are embedded. Just as teaching can be viewed as relationship with others, this contemporary autobiography is situated on the significance of relationship with self. As a contemporary autobiography, the narrative reveals the author’s subjective truths while digging deeply into psychosocial motives of power and intimacy. The author reflects on his personal choices and career decisions that led him into and out of high school science teaching. The book contains stories and reflections from summer work camp experiences, undergraduate college days, teacher preparation episodes, and high school science teaching. Story themes are diversity and leadership, group identity and motivation, urban teaching and teacher preparation, and high school science teaching. These themes evolve out of nuclear episodes of the author’s storied life that brings present day understanding and meaning from past actions and interactions. This kind of critical introspection may hold special relevance for teachers, teacher educators, and others who wish to make their own identities salient and relevant to their own needs and interests as well as the needs and interests of students, teacher candidates, and clients whom they serve.

The Cultural Transmission of Artefacts, Skills and Knowledge

Eleven Studies in Technology Education in France

Series:

Jacques Ginestié

In the past twenty years, the development of technology education in France was complemented by a development of educational research in technological education. Investigations dealt with the knowledge that is to be taught in class, the way to teach that knowledge, and the way pupils learn. The work that was done by the research team 'Gestepro', in Marseille, succeeded in improving our understanding of the school situations, in particular from the point of view of the processes of teaching and learning. Based on the theories on activity, on the one hand, and, on the other hand, on an anthropological approach of technological knowledge, these investigations bring together philosophy of technology and psychology of learning. The studies presented here cover a wide domain ranging from technology education in elementary school to the training of technicians and architects. This publication is of interest for educational researchers, teachers and students who work in the domains of technology education and vocational training. As this book is fairly unique in presenting work done in France in the English language, it opens new opportunities for people in the Anglo-Saxon community to learn about French technology education research. The examples that have been chosen, the research subjects, the selected methodologies and the included bibliographies are particularly rich for those who want to widen their perspective on international technology education.