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In this guide, educators and authors David Upegui and David E. Fastovsky offer a pedagogical prescription for how you can integrate the study of racial justice with evolutionary biology in your existing high-school biology curriculum. Designed as a practical manual for teaching, the chapters focus on teaching concepts of equity through evolutionary biology modules, a cornerstone for building students’ scientific understanding of biotic diversity. The book provides pedagogical components alongside historical and scientific components, with contextual chapters that give teachers the background knowledge to understand the historical relationship between science and racism for topics such as natural selection, social justice, and American slavery and colonization. Ready-to-use lesson plans are situated in a historical and theoretical context of science as it relates to racial oppression, and demonstrate how rigorous science education can lead to your students’ liberation and personal empowerment despite the historically problematic history of some applications of science. These lesson plans and classroom exercises are presented in a way that introduces the timely extra dimension of anti-racism into the existing biology curricula without significantly increasing teaching loads. The contextual material provided allows the lessons to be implemented across a variety of classrooms regardless of initial familiarity with DEI. Ideal for secondary biology teachers and their students, particularly in grades 10-12, this book synthesizes timely ideas for high-school educators, harnessing the power of rigorous science to combat marginalization. Lessons and activities have been classroom-tested and are aligned with three different standards: Next Generation Science Standards (NGSS); College board (AP Biology); Vision and Change; and use the 5E format.
In this guide, educators and authors David Upegui and David E. Fastovsky offer a pedagogical prescription for how you can integrate the study of racial justice with evolutionary biology in your existing high-school biology curriculum. Designed as a practical manual for teaching, the chapters focus on teaching concepts of equity through evolutionary biology modules, a cornerstone for building students’ scientific understanding of biotic diversity. The book provides pedagogical components alongside historical and scientific components, with contextual chapters that give teachers the background knowledge to understand the historical relationship between science and racism for topics such as natural selection, social justice, and American slavery and colonization. Ready-to-use lesson plans are situated in a historical and theoretical context of science as it relates to racial oppression, and demonstrate how rigorous science education can lead to your students’ liberation and personal empowerment despite the historically problematic history of some applications of science. These lesson plans and classroom exercises are presented in a way that introduces the timely extra dimension of anti-racism into the existing biology curricula without significantly increasing teaching loads. The contextual material provided allows the lessons to be implemented across a variety of classrooms regardless of initial familiarity with DEI. Ideal for secondary biology teachers and their students, particularly in grades 10-12, this book synthesizes timely ideas for high-school educators, harnessing the power of rigorous science to combat marginalization. Lessons and activities have been classroom-tested and are aligned with three different standards: Next Generation Science Standards (NGSS); College board (AP Biology); Vision and Change; and use the 5E format.
A call to action championing equity and social justice in K–12 science curriculum
This resource supports Middle School Physical Education teachers in promoting healthy activity levels among their students, both in and outside the PE facilities. Its comprehensive curricular approach addresses National Physical Education standards but, unlike traditional curricula, encourages teaching sports and fitness as connected components instead of separate. This book is rooted in the progressive Sport Education model, which facilitates students’ personal growth with the learning of individual and team sports. Fitness programming and cooperative activities are key aspects of this program. Unique to this book is a section detailing what to do if students have not yet learned movement concepts and skills at the elementary level. Each chapter includes a list of key concepts and review questions. A rationale for the Sport Education model, lesson plans, sample assessments, and safety considerations are provided. Sample forms and documents round out the book for a seamless transition from elementary PE to the middle level. Middle School Physical Education teachers and PE administrators will find this classroom-tested curricular approach accessible and easy to implement. As your students undergo psychomotor, cognitive, and affective change throughout the middle-grade years, this book lays out a PE program that not only acknowledges, but celebrates, their development, and improves physical skills while working past any fitness weaknesses.
Chicago has long struggled with racial residential segregation, high rates of poverty, and deepening class stratification, and it can be a challenging place for adolescents to grow up. Unequal City examines the ways in which Chicago’s most vulnerable residents navigate their neighborhoods, life opportunities, and encounters with the law. In this pioneering analysis of the intersection of race, place, and opportunity, sociologist and criminal justice expert Carla Shedd illuminates how schools either reinforce or ameliorate the social inequalities that shape the worlds of these adolescents. Shedd draws from an array of data and in-depth interviews with Chicago youth to offer new insight into this understudied group. Focusing on four public high schools with differing student bodies, Shedd reveals how the predominantly low-income African American students at one school encounter obstacles their more affluent, white counterparts on the other side of the city do not face. Teens often travel long distances to attend school which, due to Chicago’s segregated and highly unequal neighborhoods, can involve crossing class, race, and gang lines. As Shedd explains, the disadvantaged teens who traverse these boundaries daily develop a keen “perception of injustice,” or the recognition that their economic and educational opportunities are restricted by their place in the social hierarchy. Adolescents’ worldviews are also influenced by encounters with law enforcement while traveling to school and during school hours. Shedd tracks the rise of metal detectors, surveillance cameras, and pat-downs at certain Chicago schools. Along with police procedures like stop-and-frisk, these prison-like practices lead to distrust of authority and feelings of powerlessness among the adolescents who experience mistreatment either firsthand or vicariously. Shedd finds that the racial composition of the student body profoundly shapes students’ perceptions of injustice. The more diverse a school is, the more likely its students of color will recognize whether they are subject to discriminatory treatment. By contrast, African American and Hispanic youth whose schools and neighborhoods are both highly segregated and highly policed are less likely to understand their individual and group disadvantage due to their lack of exposure to youth of differing backgrounds.
How might science education reflect the values of a socially just and democratic society? How do urban youth living in poverty construct science in their lives in ways that are enriching, empowering, and transformative? Using a combination of in-depth case studies and rigorous theory, this volume: Offers a series of teaching stories that describes youth’s practices of science, providing valuable insight to help teachers work with inner-city youth.Explores the importance of inclusiveness, membership rules, and the purposes and goals of good science, including utility, pragmatism, and doing good for others.Shows how science connects to the lives of youth both in and out of school. Builds on and critiques current reform initiatives in science education.Features stories taken from six years of teaching and research in after-school science programs with children and youth in homeless shelters.Illustrates how the children’s unique situations framed their constructions of science in compelling and challenging ways.
Preparing Teachers for Deeper Learning answers an urgent call for teachers who educate children from diverse backgrounds to meet the demands of a changing world. In today’s knowledge economy, teachers must prioritize problem-solving ability, adaptability, critical thinking, and the development of interpersonal and collaborative skills over rote memorization and the passive transmission of knowledge. Authors Linda Darling-Hammond and Jeannie Oakes and their colleagues examine what this means for teacher preparation and showcase the work of programs that are educating for deeper learning, equity, and social justice. Guided by the growing knowledge base in the science of learning and development, the book examines teacher preparation programs at Alverno College, Bank Street College of Education, High Tech High’s Intern Program, Montclair State University, San Francisco Teacher Residency, Trinity University, and University of Colorado Denver. These seven programs share a common understanding of how people learn that shape similar innovative practices. With vivid examples of teaching for deeper learning in coursework and classrooms; interviews with faculty, school partners, and novice teachers; surveys of teacher candidates and graduates; and analyses of curriculum and practices, Preparing Teachers for Deeper Learning depicts transformative forms of teaching and teacher preparation that honor and expand all students’ abilities, knowledges, and experiences, and reaffirm the promise of educating for a better world.
2018 Outstanding Academic Title, Choice Ambitious Science Teaching outlines a powerful framework for science teaching to ensure that instruction is rigorous and equitable for students from all backgrounds. The practices presented in the book are being used in schools and districts that seek to improve science teaching at scale, and a wide range of science subjects and grade levels are represented. The book is organized around four sets of core teaching practices: planning for engagement with big ideas; eliciting student thinking; supporting changes in students’ thinking; and drawing together evidence-based explanations. Discussion of each practice includes tools and routines that teachers can use to support students’ participation, transcripts of actual student-teacher dialogue and descriptions of teachers’ thinking as it unfolds, and examples of student work. The book also provides explicit guidance for “opportunity to learn” strategies that can help scaffold the participation of diverse students. Since the success of these practices depends so heavily on discourse among students, Ambitious Science Teaching includes chapters on productive classroom talk. Science-specific skills such as modeling and scientific argument are also covered. Drawing on the emerging research on core teaching practices and their extensive work with preservice and in-service teachers, Ambitious Science Teaching presents a coherent and aligned set of resources for educators striving to meet the considerable challenges that have been set for them.
An important contribution to the topical debate on multi-cultural education. The papers extend from general issues about science, nature and race to practical teaching guides and suggested projects, and offer proposals for an anti-racist curriculum.
Christopher Emdin is an assistant professor of science education and director of secondary school initiatives at the Urban Science Education Center at Teachers College, Columbia University. He holds a Ph.D. in urban education with a concentration in mathematics, science and technology; a master's degree in natural sciences; and a bachelor's degree in physical anthropology, biology, and chemistry. His book, Urban Science Education for the Hip-Hop Generation is rooted in his experiences as student, teacher, administrator, and researcher in urban schools and the deep relationship between hip-hop culture and science that he discovered at every stage of his academic and professional journey. The book utilizes autobiography, outcomes of research studies, theoretical explorations, and accounts of students' experiences in schools to shed light on the causes for the lack of educational achievement of urban youth from the hip-hop generation.