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Enhancing Science Learning through Learning Experiences outside School (LEOS)

How to Learn Better during Visits to Museums, Science Centres, and Science Fieldtrips

Sandhya Devi Coll and Richard K. Coll

The authors provide practical, research-informed, guidelines and detailed lesson plans that improve learning of chemical, physical, biological, and Earth & space sciences. The context for learning is the myriad of exciting opportunities provided by informal science institutions such as zoos, museums, space centers and the outdoors. Many such institutions seek to educate the public and inspire budding scientists. Visits outside school help students relate science to everyday life, providing strong motivation to learn science for all abilities. Our research shows the key to making such visits effective, is when they are linked to classroom learning using a learning management system, drawing upon modern students’ fascination with digital technologies and mobile devices.

Jesuits and the Book of Nature

Science and Education in Modern Portugal

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Francisco Malta Romeiras

Jesuits and the Book of Nature: Science and Education in Modern Portugal offers an account of the Jesuits’ contributions to science and education after the restoration of the Society of Jesus in Portugal in 1858. As well as promoting an education grounded on an “alliance between religion and science,” the Portuguese Jesuits founded a scientific journal that played a significant role in the consolidation of taxonomy, plant breeding, biochemistry, and molecular genetics. In this book, Francisco Malta Romeiras argues that the priority the Jesuits placed on the teaching and practice of science was not only a way of continuing a centennial tradition but should also be seen as response to the adverse anticlerical milieu in which the restoration of the Society of Jesus took place.

The Language of Education

Key Terms and Concepts in Teaching and Learning

The Language of Education: Key Terms and Concepts in Teaching and Learning is a series of short handbooks each of which focuses on the special language inherent in a variety of educational disciplines. Those entering graduate programs, scholars from non-English speaking areas, teachers with interests in accessing the academic literature, and even those wishing to explore outside their discipline should find something of interest in these books. In short, these books support shared understanding by assisting all of those working with a particular discipline to share a common vocabulary and foster effective communication.

The featured terms in each volume have been selected for their relevance and their potential to be defined uniquely in a particular educational field. The key terms are discussed on one page with a short introductory definition for quick reference followed by a longer expanded discussion supported by references. The index in each book includes links to encourage readers to explore related terms and concepts and thus gain additional information and context. Those who are new to the academic language of a particular educational area, may find it useful to read the books in this series as if each were a collection of very short stories introducing that discipline.

Attributing Excellence in Medicine

The History of the Nobel Prize

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Edited by Nils Hansson, Thorsten Halling and Heiner Fangerau

Attributing Excellence in Medicine discusses the aura around the prestigious Nobel Prize in Physiology or Medicine. It analyzes the social processes and contingent factors leading to recognition and reputation in science and medicine. This volume will help the reader to better understand the dynamics of the attribution of excellence throughout the 20th century.

Contributors are Massimiano Bucchi, Fabio De Sio, Jacalyn Duffin, Heiner Fangerau, Thorsten Halling, Nils Hansson, David S. Jones, Gustav Källstrand, Ulrich Koppitz, Pauline Mattsson, Katarina Nordqvist, Scott H. Podolsky, Thomas Schlich, and Sven Widmalm.

STEM of Desire

Queer Theories and Science Education

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Edited by Will Letts and Steve Fifield

STEM of Desire: Queer Theories and Science Education locates, creates, and investigates intersections of science, technology, engineering, and mathematics (STEM) education and queer theorizing. Manifold desires—personal, political, cultural—produce and animate STEM education. Queer theories instigate and explore (im)possibilities for knowing and being through desires normal and strange. The provocative original manuscripts in this collection draw on queer theories and allied perspectives to trace entanglements of STEM education, sex, sexuality, gender, and desire and to advance constructive critique, creative world-making, and (com)passionate advocacy. Not just another call for inclusion, this volume turns to what and how STEM education and diverse, desiring subjects might be(come) in relation to each other and the world.

STEM of Desire is the first book-length project on queering STEM education. Eighteen chapters and two poems by 27 contributors consider STEM education in schools and universities, museums and other informal learning environments, and everyday life. Subject areas include physical and life sciences, engineering, mathematics, nursing and medicine, environmental education, early childhood education, teacher education, and education standards. These queering orientations to theory, research, and practice will interest STEM teacher educators, teachers and professors, undergraduate and graduate students, scholars, policy makers, and academic libraries.

Contributors are: Jesse Bazzul, Charlotte Boulay, Francis S. Broadway, Erin A. Cech, Steve Fifield, blake m. r. flessas, Andrew Gilbert, Helene Götschel, Emily M. Gray, Kristin L. Gunckel, Joe E. Heimlich, Tommye Hutson, Kathryn L. Kirchgasler, Michelle L. Knaier, Sheri Leafgren, Will Letts, Anna MacDermut, Michael J. Reiss, Donna M. Riley, Cecilia Rodéhn, Scott Sander, Nicholas Santavicca, James Sheldon, Amy E. Slaton, Stephen Witzig, Timothy D. Zimmerman, and Adrian Zongrone.

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Mijung Kim and Wolff-Michael Roth

Science educators have come to recognize children’s reasoning and problem solving skills as crucial ingredients of scientific literacy. As a consequence, there has been a concurrent, widespread emphasis on argumentation as a way of developing critical and creative minds. Argumentation has been of increasing interest in science education as a means of actively involving students in science and, thereby, as a means of promoting their learning, reasoning, and problem solving. Many approaches to teaching argumentation place primacy on teaching the structure of the argumentative genre prior to and at the beginning of participating in argumentation. Such an approach, however, is unlikely to succeed because to meaningfully learn the structure (grammar) of argumentation, one already needs to be competent in argumentation. This book offers a different approach to children’s argumentation and reasoning based on dialogical relations, as the origin of internal dialogue (inner speech) and higher psychological functions. In this approach, argumentation first exists as dialogical relation, for participants who are in a dialogical relation with others, and who employ argumentation for the purpose of the dialogical relation. With the multimodality of dialogue, this approach expands argumentation into another level of physicality of thinking, reasoning, and problem solving in classrooms. By using empirical data from elementary classrooms, this book explains how argumentation emerges and develops in and from classroom interactions by focusing on thinking and reasoning through/in relations with others and the learning environment.

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Edited by Tasos Barkatsas, Nicky Carr and Grant Cooper

The second decade of the 21st century has seen governments and industry globally intensify their focus on the role of science, technology, engineering and mathematics (STEM) as a vehicle for future economic prosperity. Economic opportunities for new industries that are emerging from technological advances, such as those emerging from the field of artificial intelligence also require greater capabilities in science, mathematics, engineering and technologies. In response to such opportunities and challenges, government policies that position STEM as a critical driver of economic prosperity have burgeoned in recent years. Common to all these policies are consistent messages that STEM related industries are the key to future international competitiveness, productivity and economic prosperity.
This book presents a contemporary focus on significant issues in STEM teaching, learning and research that are valuable in preparing students for a digital 21st century. The book chapters cover a wide spectrum of issues and topics using a wealth of research methodologies and methods ranging from STEM definitions to virtual reality in the classroom; multiplicative thinking; STEM in pre-school, primary, secondary and tertiary education, opportunities and obstacles in STEM; inquiry-based learning in statistics; values in STEM education and building academic leadership in STEM.
The book is an important representation of some of the work currently being done by research-active academics. It will appeal to academics, researchers, teacher educators, educational administrators, teachers and anyone interested in contemporary STEM Education related research in a rapidly changing globally interconnected world.

Contributors are: Natalie Banks, Anastasios (Tasos) Barkatsas, Amanda Berry, Lisa Borgerding, Nicky Carr, Io Keong Cheong, Grant Cooper, Jan van Driel, Jennifer Earle, Susan Fraser, Noleine Fitzallen, Tricia Forrester, Helen Georgiou, Andrew Gilbert, Ineke Henze, Linda Hobbs, Sarah Howard, Sylvia Sao Leng Ieong, Chunlian Jiang, Kathy Jordan, Belinda Kennedy, Zsolt Lavicza, Tricia Mclaughlin, Wendy Nielsen, Shalveena Prasad, Theodosia Prodromou, Wee Tiong Seah, Dianne Siemon, Li Ping Thong, Tessa E. Vossen and Marc J. de Vries.

Edited by Jacqueline Leonard, Andrea C. Burrows and Richard Kitchen

There is a critical need to prepare diverse teachers with expertise in science, technology, engineering, and mathematics (STEM) with the skills necessary to work effectively with underrepresented K-12 students. Three major goals of funded STEM programs are to attract and prepare students at all educational levels to pursue coursework in the STEM content areas, to prepare graduates to pursue careers in STEM fields, and to improve teacher education programs in the STEM content areas. Drawing upon these goals as the framework for Recruiting, Preparing, and Retaining STEM Teachers for a Global Generation, the 15 chapters contained herein highlight both the challenges and successes of recruiting, preparing, and sustaining novice teachers in the STEM content areas in high-need schools.

Recruiting, retaining and sustaining highly-qualified teachers with expertise in STEM content areas to work in hard-to-staff schools and geographic areas are necessary to equalize educational opportunities for rural and urban Title 1 students. High teacher turnover rates, in combination with teachers working out-of-field, leave many students without highly-qualified teachers in STEM fields. Most of the chapters in this volume were prepared by scholars who received NSF funding through Noyce and are engaged in addressing research questions related to these endeavours.

Contributors are: Lillie R. Albert, Cynthia Anhalt, Saman A. Aryana, Joy Barnes-Johnson, Lora Bartlett, Brezhnev Batres, Diane Bonilla, Patti Brosnan, Andrea C. Burrows, Alan Buss, Laurie O. Campbell, Phil Cantor, Michelle T. Chamberlin, Scott A. Chamberlin, Marta Civil, Lin Ding, Teresa Dunleavy, Belinda P. Edwards, Jennifer A. Eli, Joshua Ellis, Adrian Epps, Anne Even, Angela Frausto, Samantha Heller, Karen E. Irving, Heather Johnson, Nicole M. Joseph, Richard Kitchen, Karen Kuhel, Marina Lazic, Jacqueline Leonard, Rebecca H. McGraw, Daniel Morales-Doyle, Sultana N. Nahar, Justina Ogodo, Anil K. Pradhan, Carolina Salinas, David Segura, Lynette Gayden Thomas, Alisun Thompson, Maria Varelas, Dorothy Y. White, Desha Williams, and Ryan Ziols.

Stability and Change in Science Education -- Meeting Basic Learning Needs

Homeostasis and Novelty in Teaching and Learning

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Edited by Phyllis Katz and Lucy Avraamidou

In this book the editors consider the resistance to change among teachers and learners despite all the evidence that science participation brings benefits for both individuals and nations. Beginning with biology, Stability and Change in Science Education: Meeting Basic Learning Needs explores this balance in teaching and learning science. The authors reflect upon this equilibrium as they each present their work and its contribution.

The book provides a wide range of examples using the change/stability lens. Authors from the Netherlands, Israel, Spain, Canada and the USA discuss how they observe and consider both homeostasis and novelty in theory, projects and other work. The book contains examples from science educators in schools and in other science rich settings.

Contributors are: Lucy Avraamidou, Ayelet Baram-Tsabari, Michelle Crowl, Marilynne Eichinger, Lars Guenther, Maria Heras, Phyllis Katz, Joy Kubarek, Lucy R. McClain, Patricia Patrick, Wolff-Michael Roth, Isabel Ruiz-Mallen, Lara Smetana, Hani Swirski, Heather Toomey Zimmerman, and Bart Van de Laar.

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Edited by Lynn A. Bryan and Kenneth Tobin

Critical Issues and Bold Visions for Science Education contains 16 chapters written by 32 authors from 11 countries. The book is intended for a broad audience of teachers, teacher educators, researchers, and policymakers. Interesting perspectives, challenging problems, and fresh solutions grounded in cutting edge theory and research are presented, interrogated, elaborated and, while retaining complexity, offer transformative visions within a context of political tensions, historical legacies, and grand challenges associated with Anthropocene (e.g., sustainability, climate change, mass extinctions).

Within overarching sociocultural frameworks, authors address diverse critical issues using rich theoretical frameworks and methodologies suited to research today and a necessity to make a difference while ensuring that all participants benefit from research and high standards of ethical conduct. The focus of education is broad, encompassing teaching, learning and curriculum in pre-k-12 schools, museums and other informal institutions, community gardens, and cheeseworld. Teaching and learning are considered for a wide range of ages, languages, and nationalities. An important stance that permeates the book is that research is an activity from which all participants learn, benefit, and transform personal and community practices. Transformation is an integral part of research in science education.

Contributors are: Jennifer Adams, Arnau Amat, Lucy Avraamidou, Marcília Elis Barcellos, Alberto Bellocchi, Mitch Bleier, Lynn A. Bryan, Helen Douglass, Colin Hennessy Elliott, Alejandro J. Gallard Martínez, Elisabeth Gonçalves de Souza, Da Yeon Kang, Shakhnoza Kayumova, Shruti Krishnamoorthy, Ralph Levinson, Sonya N. Martin, Jordan McKenzie, Kathy Mills, Catherine Milne, Ashley Morton, Masakata Ogawa, Rebecca Olson, Roger Patulny, Chantal Pouliot, Leah D. Pride, Anton Puvirajah, S. Lizette Ramos de Robles, Kathryn Scantlebury, Glauco S. F. da Silva, Michael Tan, Kenneth Tobin, and Geeta Verma.