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Addressing underlying issues in science education and teacher training, which contribute to continued underrepresentation of racial and ethnic minority students in STEM and STEAM subjects and careers, this timely volume illustrates how a critical postmodern science pedagogy (CPSP) can be used effectively to raise awareness of diversity issues amongst preservice teachers. Using a case study design consisting of class observations, interviews, content analysis, questionnaires, and instructional interventions in preservice teacher training, the volume bridges science and multicultural education and investigates how curricular development and teacher preparation can be used to ensure that science education itself promotes diversity within STEM, and throughout education. Chapters also examine the intersections of science education and science literacy for both students and teachers and, in doing so, promote the importance of positive and accurate representation of diversity within science and research discourse. The book attempts to raise awareness regarding the need for meaningful curricular reform that creates real opportunities to address historical and scientific misinformation, while increasing diversity and inclusion in schools and society. This important text will be of interest to postgraduate students, researchers, scholars, and preservice teachers in the fields of science and mathematics education, STEM, multicultural education, teacher education, urban education, and the sociology of education.
This book offers valuable guidance for science teacher educators looking for ways to facilitate preservice and inservice teachers’ pedagogy relative to teaching students from underrepresented and underserved populations in the science classroom. It also provides solutions that will better equip science teachers of underrepresented student populations with effective strategies that challenge the status quo, and foster classrooms environment that promotes equity and social justice for all of their science students. Multicultural Science Education illuminates historically persistent, yet unresolved issues in science teacher education from the perspectives of a remarkable group of science teacher educators and presents research that has been done to address these issues. It centers on research findings on underserved and underrepresented groups of students and presents frameworks, perspectives, and paradigms that have implications for transforming science teacher education. In addition, the chapters provide an analysis of the socio-cultural-political consequences in the ways in which science teacher education is theoretically conceptualized and operationalized in the United States. The book provides teacher educators with a framework for teaching through a lens of equity and social justice, one that may very well help teachers enhance the participation of students from traditionally underrepresented and underserved groups in science, technology, engineering, and mathematics (STEM) areas and help them realize their full potential in science. Moreover, science educators will find this book useful for professional development workshops and seminars for both novice and veteran science teachers. "Multicultural Science Education: Preparing Teachers for Equity and Social Justice directly addresses the essential role that science teacher education plays for the future of an informed and STEM knowledgeable citizenry. The editors and authors review the beginnings of multicultural science education, and then highlight findings from studies on issues of equity, underrepresentation, cultural relevancy, English language learning, and social justice. The most significant part of this book is the move to the policy level—providing specific recommendations for policy development, implementation, assessment and analysis, with calls to action for all science teacher educators, and very significantly, all middle and high school science teachers and prospective teachers. By emphasizing the important role that multicultural science education has played in providing the knowledge base and understanding of exemplary science education, Multicultural Science Education: Preparing Teachers for Equity and Social Justice gives the reader a scope and depth of the field, along with examples of strategies to use with middle and high school students. These classroom instructional strategies are based on sound science and research. Readers are shown the balance between research-based data driven models articulated with successful instructional design. Science teacher educators will find this volume of great value as they work with their pre-service and in-service teachers about how to address and infuse multicultural science education within their classrooms. For educators to be truly effective in their classrooms, they must examine every component of the learning and teaching process. Multicultural Science Education: Preparing Teachers for Equity and Social Justice provides not only the intellectual and research bases underlying multicultural studies in science education, but also the pragmatic side. All teachers and teacher educators can infuse these findings and recommendations into their classrooms in a dynamic way, and ultimately provide richer learning experiences for all students." Patricia Simmons, North Carolina State University, Raleigh, USA "This provocative collection of chapters is a presentation in gutsiness. Ingenious in construction and sequencing, this book will influence science teacher educators by introducing them to issues of equity and social justice directly related to women and people of color. The authors unflinchingly interrogate issues of equity which need to be addressed in science education courses. "This provocative collection of chapters is a presentation in gutsiness. Ingenious in construction and sequencing, this book will influence science teacher educators by introducing them to issues of equity and social justice directly related to women and people of color. The authors unflinchingly interrogate issues of equity which need to be addressed in science education courses. It begins with setting current cultural and equity issue within a historic frame. The first chapter sets the scene by moving the reader through 400 years in which African-American’s were ‘scientifically excluded from science’. This is followed by a careful review of the Jim Crow era, an analysis of equity issues of women and ends with an examination of sociocultural consciousness and culturally responsive teaching. Two chapters comprise the second section. Each chapter examines the role of the science teacher in providing a safe place by promoting equity and social justice in the classroom. The three chapters in the third section focus on secondary science teachers. Each addresses issues of preparation that provides new teachers with understanding of equity and provokes questions of good teaching. Section four enhances and expands the first section as the authors suggest cultural barriers the impact STEM engagement by marginalized groups. The last section, composed of three chapters, interrogates policy issues that influence the science classroom." Molly Weinburgh, Texas Christian University, Fort Worth, USA
This edited book explores different international practices in reforming science teacher education programs for STEM education. Incorporating case studies in Asia, the Middle East, Africa, Europe, North America and South America, the contributors emphasise the large variety in STEM teacher preparation. Including science-centric versions of STEM programs as well as more integrated models of STEM, this contextual diversity will help readers learn about the design, opportunities, and challenges of STEM teacher preparation in a variety of circumstances, in order to innovate and improve STEM education more broadly.
Do you ever feel like more and more of your students come to your classroom not knowing how to study or what to do in order to be successful in your class? Some students come to college knowing the ropes, knowing what it takes to be successful as STEM students. But many do not. Research shows that students who are the first-generation in their family to attend or complete college are likely to arrive at your classroom not knowing what it takes to be successful. And data shows that more first-generation students are likely to be arriving on your doorstep in the near future. What can you do to help these students be successful? This book can provide you with some research based methods that are quick, easy, and effortless. These are steps that you can take to help first-generation college students succeed without having to change the way you teach. Why put in this effort in the first place? The payoff is truly worth it. First-generation college students are frequently low-income students and from ethnic groups underrepresented in STEM. With a little effort, you can enhance the retention of underrepresented groups in your discipline, at your institution and play a role in national efforts to enhance diversity in STEM. "This book provides an excellent description of dealing with immigrant and first generation college STEM students whose socioeconomic backgrounds often hinder them from reaching their full potential. The text touches on various aspects of student, faculty and mentor interaction that will lead to the exploitation of the student natural talents and provide life changing outcomes." ~ Paris Svoronos, Ph.D. Queensborough Community College of CUNY "Gail Horowitz’s new book Teaching STEM to First Generation College Students is a timely and important resource to improve the success of college students who come from families with little or no experience in the US higher education system. “First-gens” are a growing population whose academic success is important to both the institutions they attend and our nation’s economy. Dr. Horowitz, an experienced chemistry educator, describes in detail the challenges first-gens face in historically difficult STEM classes. In doing so, she is honest but also optimistic. First-gens encounter difficulty not merely with the technical subject matter they may have been poorly prepared for in high school, but also with their own wrong-headed beliefs about how to study and where to find help on campus. At the same time, Horowitz is also highly respectful of the strengths that many first-gens bring to college, strengths often under the radar of instructors who may only see inexplicable behaviors they attribute to first-gens being clueless, unmotivated, or irresponsible. Horowitz provides an excellent review of constructs from psychology about students’ and teachers’ beliefs about academic success and failure, demonstrating that first gens are too often tripped by self-defeating and often incorrect beliefs about their legitimacy as college students and what it takes to pass difficult STEM courses. These, she explains, fuel first-gen students’ fear about revealing their ignorance and illegitimacy as college students. With clear-eyed and experienced-based optimism about techniques that help first-gens succeed, she then gives excellent, specific suggestions for faculty, graduate teaching assistants, and the students themselves to help first-gens learn to “do” STEM courses and college successfully. This is an important and highly-recommended book, a gift of honesty and hope, by an experienced STEM instructor who clearly cares deeply about first-gen students and their college experience." ~ Dr. Louise Hainline CUNY - Brooklyn College Director, Center for Achievement in Science Education (CASE) Director of NYS Collegiate Science and Technology Entry Program (CSTEP) Director of NIH Minority Access to Research Careers (MARC) Director, NSF Improving Undergraduate STEM Education (IUSE) Peer-Assisted Team Research program Director, Brooklyn College subcontract, NSF Institutional Research and Academic Career Development Awards (IRACDA) to SUNY Stony Brook "As the college population becomes more diverse, STEM instructors have a responsibility to cultivate the success of all students. In this important and engaging book, Gail Horowitz provides a valuable resource for understanding the educational experiences of first-generation students and why they often struggle in STEM courses. The author persuasively conveys two important insights. First, that first-generation students can achieve success in STEM courses by becoming self-regulated learners. Second, that college faculty and graduate instructors can easily introduce effective learning strategies into their courses. These arguments are supported by extensive references to the research literature, which provide a wealth of additional resources. Just as important, however, is the deep humanity that the author brings to her subject—a sincere belief that our classrooms and colleges are made better by the aspirations, resilience, and experiences of first-generation students." ~ Dr. Trace Jordan New York University "G. Horowitz’s book should be required reading for both teachers and students. It provides valuable insights into the behaviors and coping mechanisms of not only many first-generation college students, but also continuing generation students who struggle with STEM coursework. Recognizing these behaviors and mindsets is the first step towards becoming a better educator." ~ Leda Lee, M.S. Brooklyn College
Bridging a gap in the literature by offering a comprehensive look at how STEM teacher education programs evolve over time, this book explores teachHOUSTON, a designer teacher education program that was created to respond to the lack of adequately prepared STEM teachers in Houston and the emerging urban school districts that surround it.
Science, technology, engineering, and mathematics (STEM) permeate the modern world. The jobs people do, the foods they eat, the vehicles in which they travel, the information they receive, the medicines they take, and many other facets of modern life are constantly changing as STEM knowledge steadily accumulates. Yet STEM education in the United States, despite the importance of these subjects, is consistently falling short. Many students are not graduating from high school with the knowledge and capacities they will need to pursue STEM careers or understand STEM-related issues in the workforce or in their roles as citizens. For decades, efforts to improve STEM education have focused largely on the formal education system. Learning standards for STEM subjects have been developed, teachers have participated in STEM-related professional development, and assessments of various kinds have sought to measure STEM learning. But students do not learn about STEM subjects just in school. Much STEM learning occurs out of school-in organized activities such as afterschool and summer programs, in institutions such as museums and zoos, from the things students watch or read on television and online, and during interactions with peers, parents, mentors, and role models. To explore how connections among the formal education system, afterschool programs, and the informal education sector could improve STEM learning, a committee of experts from these communities and under the auspices of the Teacher Advisory Council of the National Research Council, in association with the California Teacher Advisory Council organized a convocation that was held in February 2014. Entitled "STEM Learning Is Everywhere: Engaging Schools and Empowering Teachers to Integrate Formal, Informal, and Afterschool Education to Enhance Teaching and Learning in Grades K-8," the convocation brought together more than 100 representatives of all three sectors, along with researchers, policy makers, advocates, and others, to explore a topic that could have far-reaching implications for how students learn about STEM subjects and how educational activities are organized and interact. This report is the summary of that meeting. STEM Learning is Everywhere explores how engaging representatives from the formal, afterschool, and informal education sectors in California and from across the United States could foster more seamless learning of STEM subjects for students in the elementary and middle grades. The report also discusses opportunities for STEM that may result from the new expectations of the Next Generation Science Standards and the Common Core Standards for Mathematics and Language Arts.
Studying Diversity in Teacher Education is a collaborative effort by experts seeking to elucidate one of the most important issues facing education today. First, the volume examines historically persistent, yet unresolved issues in teacher education and presents research that is currently being done to address these issues. Second, it centers on research on diverse populations, bringing together both research on diversity and research on diversity in teacher education. The contributors present frameworks, perspectives and paradigms that have implications for reframing research on complex issues that are often ignored or treated too simplistically in teacher education literature. Concluding the volume with an agenda for future research and a guide for preparing teachers for diversity education in a global context, the contributors provide a solid foundation for all educators. Studying Diversity in Teacher Education is a vital resource for all those interested in diversity and education research.
2020 Choice​ Outstanding Academic Title Research frequently neglects the important ways that race and gender intersect within the complex structural dynamics of STEM. Diversifying STEM fills this void, bringing together a wide array of perspectives and the voices of a number of multidisciplinary scholars. The essays cover three main areas: the widely-held ideology that science and mathematics are “value-free,” which promotes pedagogies of colorblindness in the classroom as well as an avoidance of discussions around using mathematics and science to promote social justice; how male and female students of color experience the intersection of racist and sexist structures that lead to general underrepresentation and marginalization; and recognizing that although there are no quick fixes, there exists evidence-based research suggesting concrete ways of doing a better job of including individuals of color in STEM. As a whole this volume will allow practitioners, teachers, students, faculty, and professionals to reimagine STEM across a variety of educational paradigms, perspectives, and disciplines, which is critical in finding solutions that broaden the participation of historically underrepresented groups within the STEM disciplines.
There has been an increasing issue in STEM education as many students lack interest and knowledge in STEM disciplines and fields. Given the high demand for STEM workers, and the projected growth of STEM fields, it is important to expose students to STEM education beginning as early as elementary school. Some K-6 programs are not preparing teacher candidates adequately for STEM content or skills, especially in engineering. Integrating these disciplines and practices throughout elementary education programs could result in more exposure for K-6 students. Using STEM-Focused Teacher Preparation Programs to Reimagine Elementary Education presents anecdotal stories of how elementary education programs have altered their content offerings, field experiences, and curricula to expand their teacher candidates’ knowledge and exposure to STEM disciplines and fields. Covering key topics such as diversity, teacher education, and technology integration, this premier reference source is ideal for industry professionals, policymakers, administrators of K-12 education, pre-service teachers, teacher educators, researchers, scholars, academicians, practitioners, instructors, and students.
This book focuses on the creative and transformative work of scholars who are advancing social justice through science/STEM education with limited resources. It draws attention to the significant body of work being conducted in various contexts so that readers could reflect and appreciate how much broader and transformative our impact could be if funding agencies, policy makers, and other researchers would widen their perspective and seek to promote social justice-driven scholarship. Public funding for STEM research on K-12 and teacher education that targets special populations is often limited and tends to favor mainstream research. This book contains case studies on innovative and promising STEM research with a focus on equity, diversity and social justice that are funded with limited or no public funding. It also presents anecdotes from authors in relation to their struggles in either securing funding for their reported study or seeking to publish its findings. This provides more context to the challenges of conducting non-mainstream research in science/STEM education. Most of the contributors are scholars of color and/or women conducting research with traditionally marginalized populations in science/STEM. Thus, this book offers an additional venue to share the voices of marginalized scholars and allies seeking to broaden our understanding of the challenges and successes of promoting equity, diversity, and social justice in various educational contexts.