Women in science education are placed in a juxtaposition of gender roles and gendered career roles. Using auto/biography and auto/ethnography, this book examines the challenges and choices of academic women in science education and how those challenges have changed, or remained consistent, since women have become a presence in science education.
Since its beginnings, science education has been under the influence of psychological theories of knowing and learning, while in more recent years, social constructivist and sociological frameworks have also begun to emerge. With little work being done on showing how the perspectives of these separate approaches might be integrated, this work aims to plug the gap. The book helps lay the groundwork for reuniting sociological and psychological perspectives on the knowing, learning, and teaching of science. Featuring a range of integrative efforts beginning with simple conversation, the chapters here include not only articles but also commentaries that engage with other papers, as well as a useful running narrative that, from the introduction to the epilogue, contextualizes the book and its sections. Specific attention is given to cultural-historical activity theory, which already offers an integration of psychological and cultural-historical (sociological) perspectives on collectively motivated human activities. A number of chapters, as well as the contextualizing narrative, explicitly use this theory as a framework for rethinking science education to achieve the reunification that is the goal of this work. All the contributors to this volume have produced texts that contribute to the effort of overcoming the extant divide between sociological and psychological approaches to science education research and practice. From very different positions—gender, culture, race—they provide valuable insights to reuniting approaches in both theory and method in the field. As an ensemble, the contributions constitute a rich menu of ideas from which new forms of science education can emerge.
Building on the foundation set in Volume I—a landmark synthesis of research in the field—Volume II is a comprehensive, state-of-the-art new volume highlighting new and emerging research perspectives. The contributors, all experts in their research areas, represent the international and gender diversity in the science education research community. The volume is organized around six themes: theory and methods of science education research; science learning; culture, gender, and society and science learning; science teaching; curriculum and assessment in science; science teacher education. Each chapter presents an integrative review of the research on the topic it addresses—pulling together the existing research, working to understand the historical trends and patterns in that body of scholarship, describing how the issue is conceptualized within the literature, how methods and theories have shaped the outcomes of the research, and where the strengths, weaknesses, and gaps are in the literature. Providing guidance to science education faculty and graduate students and leading to new insights and directions for future research, the Handbook of Research on Science Education, Volume II is an essential resource for the entire science education community.
This volume presents a case for liberatory science education from a feminist perspective. Based on a two-year teacher-research study, Feminist Science Education questions and challenges how power and knowledge relationships position teachers, students, and science with and against one another in the classroom. Using stories about life in and out of the classroom, this book describes the impact that exploring this situated nature of science and teaching has for transforming science education.
This book is a companion to the IYC-2011 celebration. The eleven chapters are organized into three sections: Section 1: Marie Curie’s Impact on Science and Society, Section 2: Women Chemists in the Past Two Centuries, and Section 3: Policy Implications. The authors invited to contribute to this book were asked to orient their chapter around a particular aspect of Marie Curie’s life such as the ethical aspects of her research, women’s role in research or her influence on the image of chemists. Our hope is that this book will positively influence young women’s minds and decisions they make in learning of chemistry/science like Marie Curie’s biography. But we do hope this book opens an avenue for young women to explore the possibility of being a scientist, or at least to appreciate chemistry as a human enterprise that has its merit in contributing to sustainability in our world. Also we hope that both men and women will realize that women are fully competent and capable of conducting creative and fascinating scientific research.
In this book various scholars explore the material in science and science education and its role in scientific practice, such as those practices that are key to the curriculum focuses of science education programs in a number of countries. As a construct, culture can be understood as material and social practice. This definition is useful for informing researchers' nuanced explorations of the nature of science and inclusive decisions about the practice of science education (Sewell, 1999). As fields of material social practice and worlds of meaning, cultures are contradictory, contested, and weakly bounded. The notion of culture as material social practices leads researchers to accept that material practice is as important as conceptual development (social practice). However, in education and science education there is a tendency to ignore material practice and to focus on social practice with language as the arbiter of such social practice. Often material practice, such as those associated with scientific instruments and other apparatus, is ignored with instruments understood as "inscription devices", conduits for language rather than sources of material culture in which scientists share “material other than words” (Baird, 2004, p. 7) when they communicate new knowledge and realities. While we do not ignore the role of language in science, we agree with Barad (2003) that perhaps language has too much power and with that power there seems a concomitant loss of interest in exploring how matter and machines (instruments) contribute to both ontology and epistemology in science and science education.
In this edited volume, science education scholars engage with the constructs of identity and identity construction of learners, teachers, and practitioners of science. Reports on empirical studies and commentaries serve to extend theoretical understandings related to identity and identity development vis-à-vis science education, link them to empirical evidence derived from a range of participants, educational settings, and analytic foci, examine methodological issues in identity studies, and project fruitful directions for research in this area. Using anthropological, sociological, and socio-cultural perspectives, chapter authors depict and discuss the complexity, messiness, but also potential of identity work in science education, and show how critical constructs–such as power, privilege, and dominant views; access and participation; positionality; agency-structure dialectic; and inequities–are integrally intertwined with identity construction and trajectories. Chapter authors examine issues of identity with participants ranging from first graders to pre-service and in-service teachers, to physics doctoral students, to show ways in which identity work is a vital (albeit still underemphasized) dimension of learning and participating in science in, and out of, academic institutions. Moreover, the research presented in this book mostly concerns students or teachers with racial, ethno-linguistic, class, academic status, and gender affiliations that have been long excluded from, or underrepresented in, scientific practice, science fields, and science-related professions, and linked with science achievement gaps. This book contributes to the growing scholarship that seeks to problematize various dominant views regarding, for example, what counts as science and scientific competence, who does science, and what resources can be fruitful for doing science.
Reflecting the very latest theory on diversity issues in science education, including new dialogic approaches, this volume explores the subject from a range of perspectives and draws on studies from around the world. The work discusses fundamental topics such as how we conceptualize diversity as well as examining the ways in which heterogeneous cultural constructs influence the teaching and learning of science in a range of contexts. Including numerous strategies ready for adoption by interested teachers, the book addresses the varied cultural factors that influence engagement with science education. It seeks answers to the question of why increasing numbers of students fail to connect with science education in schools and looks at the more subtle impact that students’ individually constructed identities have on the teaching and learning of science. Recognizing the diversity of its audience, the book covers differing levels and science subjects, and examines material from a range of viewpoints that include pedagogy, curricula, teacher education, learning, gender, religion, and ICT, as well as those of in-service and trainee teachers at all levels.
With the stagnant low percentages of women in STEM careers, identifying practices to satisfy the growing need for professionals in those fields is critical to improve recruitment and retention. Supportive relationships, like mentors and sponsors, have been shown to both inspire women to pursue those careers and to help them succeed in them. This book explores how developing supportive connections helps students, faculty, and teachers see STEM professions as being a place for women to grow and succeed. Early chapters provide essential mentor characteristics and explore engineering education gender inequity from a teacher's perspective of stereotypes, stereotype threat, and bias, offering culturally relevant teacher mentoring approaches to promote equitable pre-college engineering education. Middle chapters describe K-12 mentoring programs: mentorship initiatives empowering young South African Women and girls to advance to mathematical-related careers; programs, methods and activities to achieve the desired goal of making young students aspire to become scientists; and engagement year-round in grades 9-12 combined with 40 years of iterative evaluation created a finely-honed enrichment program for low-income Black women in urban public high schools. A longitudinal undergraduate mentoring program for mentoring early college students in Louisiana provides further insights in that section. The final four-chapter section describes mentoring programs for professors and teachers: reciprocal mentor relationships and role shifting within an informal peer mentoring group; differences between mentoring relationships and sponsoring relationships within academia; the impact of culturally responsive mentorship (CRM) on the development and expression of a pre-service teacher’s woman of science identity; and a program that aims to recruit and retain STEM pre-service teachers and STEM teachers of color. With several longitudinal mentoring programs, several programs for women of color, this book fills a gap to help grow the numbers of women in STEM.
This volume takes on the vital tasks of celebrating, challenging, and attempting to move forward our understanding of equity and diversity in science education. Organized thematically, the book explores five key areas of science education equity research: science education policy; globalization; context and culture; discourse, language and identity; and leadership and social networking. Chapter authors -- emerging to established US science education scholars -- present their latest research on how to make science interesting and accessible to all students. The volume includes international voices as well: Scholars from around the world crafted responses to each section. Together, authors and respondents attempt to refine our methods for examining equity issues across classrooms, schools, and policies, and deepen our understanding of ways to promote equity and acknowledge diversity in science classrooms. Moving the Equity Agenda Forward is endorsed by NARST: A Worldwide Organization for Improving Science Teaching and Learning Through Research. The volume gains authority from the fact that it was edited by one current and four former chairs of NARST’s Equity and Ethics Committee.