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The Science of Diversity uses a multidisciplinary approach to excavate the theories, principles, and paradigms that illuminate our understanding of the issues surrounding human diversity, social equality, and justice. The book brings these to the surface holistically, examining diversity at the individual, interpersonal, and international levels. Shedding light on why diversity programs fail, the book provides tools to understand how biases develop and influence our relationships and interactions with others.
"Using a multidisciplinary approach, The Science of Diversity reveals the theories, principles, and paradigms that illuminate people's understanding of the issues surrounding human diversity, social equality, and justice. Noted psychologist and educator Dr. Mona Weissmark assembles a rich array of research from anthropology, biology, religious studies, and the social sciences to write a scholarly diorama of diversity. This book contextualizes diversity historically, tracing the evolution of ideas about "the other" and about "we" and "them" to various forms of social organization-from the "hunter-gather," face-to-face, shared resource model to the anomie of megacities. Moreover, it explicates the concept of diversity, analyzing its meaning over time, place, and polity-from ancient Greece to the time of Donald Trump, from biblical parables to United Nations pronouncements. Ultimately, drawing on the author's groundbreaking research work with the children of Nazis and the children of holocaust survivors, the book suggests that one potential antidote to ethnic strife lies in the pursuit of Immanuel Kant's mandate, sapere aude (dare to know), combined with the development of compassion"--
The Psychology of Diversity presents a captivating social-psychological study of diversity, the obstacles confronting it, and the benefits it provides. Goes beyond prejudice and discrimination to discuss the personal and social implications of diversity for both majority and minority group members Considers how historical, political, economic, and societal factors shape the way people think about and respond to diversity Explains why discrimination leads to bias at all levels in society – interpersonal, institutional, cultural, and social Describes proven techniques for improving intergroup relations Examines the brain's impact on bias in clear terms for students with little or no background in neuroscience Includes helpful study tools throughout the text as well as an online instructor’s manual
The Science and Law of School Segregation and Diversity examines the sources of the disconnect between scientific findings on school segregation and how the U.S. legal system addresses it; evaluates these sources' empirical and legal foundations; explains why they persist; and reveals what can be done about them.
Integrates the various disciplines of the science of health disparities in one comprehensive volume The Science of Health Disparities Research is an indispensable source of up-to-date information on clinical and translational health disparities science. Building upon the advances in health disparities research over the past decade, this authoritative volume informs policies and practices addressing the diseases, disorders, and gaps in health outcomes that are more prevalent in minority populations and socially disadvantaged communities. Contributions by recognized scholars and leaders in the field—featuring contemporary research, conceptual models, and a broad range of scientific perspectives—provide an interdisciplinary approach to reducing inequalities in population health, encouraging community engagement in the research process, and promoting social justice. In-depth chapters help readers better understand the specifics of minority health and health disparities while demonstrating the importance of advancing theory, refining measurement, improving investigative methods, and diversifying scientific research. In 26 chapters, the book examines topics including the etiology of health disparities research, the determinants of population health, research ethics, and research in African American, Asians, Latino, American Indian, and other vulnerable populations. Providing a unified framework on the principles and applications of the science of health disparities research, this important volume: Defines the field of health disparities science and suggests new directions in scholarship and research Explains basic definitions, principles, and concepts for identifying, understanding and addressing health disparities Provides guidance on both conducting health disparities research and translating the results Examines how social, historical and contemporary injustices may influence the health of racial and ethnic minorities Illustrates the increasing national and global importance of addressing health disparities Discusses population health training, capacity-building, and the transdisciplinary tools needed to advance health equity A significant contribution to the field, The Science of Health Disparities Research is an essential resource for students and basic and clinical researchers in genetics, population genetics, and public health, health care policymakers, and epidemiologists, medical students, and clinicians, particularly those working with minority, vulnerable, or underserved populations.
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.
Annotation K-12 science teachers and science education professors, mostly from the US, present 12 essays addressing current debates over schooling, focusing on the need for liberatory education, the social construction of science and identity, and systems of race, class, and gender oppression and domination. Includes case studies in which a number of theoretical approaches are used in classroom practice. Annotation c. Book News, Inc., Portland, OR (booknews.com).
If you’re ready to explore the world of science, HowExpert Guide to Science is your essential resource, covering everything from foundational principles to cutting-edge innovations. Designed for aspiring scientists, students, and curious minds, this guide takes you on a journey through physics, chemistry, biology, and beyond. Focusing on key disciplines, interdisciplinary connections, ethics, and practical knowledge, this book offers insights, tools, and real-world examples to truly understand science. Chapter Highlights - Introduction - Discover science’s role in everyday life and learn how to get the most from this guide. - Chapter 1: Foundations of Science - Core principles, the scientific method, and the importance of hypotheses and theories. - Chapter 2: History of Science - Major eras and groundbreaking discoveries that define modern science. - Chapter 3: Physics - Matter, energy, mechanics, thermodynamics, and electromagnetism. - Chapter 4: Chemistry - Matter’s properties, chemical reactions, bonding, and the periodic table. - Chapter 5: Biology - Genetics, evolution, ecosystems, and cellular biology. - Chapter 6: Earth Science - Geology, meteorology, oceanography, and environmental conservation. - Chapter 7: Astronomy - Our solar system, galaxies, black holes, and cosmology. - Chapter 8: Human Body & Medical Science - Human anatomy, disease prevention, and medical advances. - Chapter 9: Environmental Science - Human impact on the planet, sustainability, and climate change. - Chapter 10: Mathematics in Science - Math’s role in research, from probability to calculus. - Chapter 11: Social Sciences - Psychology, sociology, and the science of human behavior. - Chapter 12: Technology & Applied Sciences - Engineering, computer science, and technological innovation. - Chapter 13: Data Science & Research - Research design, data analysis, and statistical significance. - Chapter 14: Cutting-Edge Sciences - Advances in nanotechnology, AI, quantum mechanics, and genetic engineering. - Chapter 15: Interdisciplinary Science - The impact of cross-field collaboration and interdisciplinary research. - Chapter 16: Practical Applications - Everyday science in technology, health, and the environment. - Chapter 17: Scientific Literacy - Skills to evaluate scientific information and avoid misconceptions. - Chapter 18: Citizen Science - How to participate in public science initiatives and projects. - Chapter 19: Philosophy & Ethics of Science - Ethical considerations and the role of scientists in society. - Chapter 20: Science Communication & Education - Techniques for communicating science and inspiring future generations. - Chapter 21: Science Careers - Explore career paths, educational requirements, and emerging roles in science. - Chapter 22: The Future of Science - Emerging fields, interdisciplinary research, and future challenges. - Conclusion - Summarizes key concepts, inspires curiosity, and reflects on science’s impact. - Appendices - Additional resources, including a glossary, recommended reading, notable scientists, hands-on experiments, and science events. Why This Guide is Essential for Science Enthusiasts - Comprehensive Learning: Covers all major branches of science, ideal for beginners and enthusiasts alike. - Practical Insights: Real-world applications, examples, and case studies deepen understanding. - Broad Perspective: Connects scientific disciplines to reveal how science shapes our world. - Future-Focused: Highlights emerging fields and innovations, offering a glimpse into science’s future. Start your journey with HowExpert Guide to Science and unlock a lifetime of discovery. Whether deepening your knowledge or just beginning, this guide opens doors to the wonders of science. Dive in, explore, and let science reveal the mysteries of the universe! HowExpert publishes how to guides on all topics from A to Z.
Mentorship is a catalyst capable of unleashing one's potential for discovery, curiosity, and participation in STEMM and subsequently improving the training environment in which that STEMM potential is fostered. Mentoring relationships provide developmental spaces in which students' STEMM skills are honed and pathways into STEMM fields can be discovered. Because mentorship can be so influential in shaping the future STEMM workforce, its occurrence should not be left to chance or idiosyncratic implementation. There is a gap between what we know about effective mentoring and how it is practiced in higher education. The Science of Effective Mentorship in STEMM studies mentoring programs and practices at the undergraduate and graduate levels. It explores the importance of mentorship, the science of mentoring relationships, mentorship of underrepresented students in STEMM, mentorship structures and behaviors, and institutional cultures that support mentorship. This report and its complementary interactive guide present insights on effective programs and practices that can be adopted and adapted by institutions, departments, and individual faculty members.