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Technology, a product of science, is pushing against the linear boundaries of traditional storytelling. Moving in the direction of multiform stories and digital formats takes literacy well beyond the 3Rs. Students increasingly need to be critical and creative users of the new media. As the Internet becomes faster, more visually powerful, and easier to manipulate there will be an explosion of virtual environments, with literacy taking on a whole new meaning. While the word literacy has become almost synonymous with the word competence, the authors prefer the definitions found in the new language arts and science standards. For example, the National Science Education Standards suggests that scientific literacy implies that a person can identify scientific issues underlying national and local decisions and express positions that are scientifically and technologically informed. As this book explores important new dimensions of linguistic and scientific literacy it looks at developing literacies not covered well in schools today. It is the authors' belief that an understanding of science and the processes of science can make major contributions to the ability to learn, reason, make decisions, and solve problems. Thus learning about the natural world helps develop intellectual tools of inquiry that can be used with the language arts and other disciplines. Interdisciplinary activities can help develop the skills in both science and language that are becoming so essential for personal fulfillment, performing in the workplace, and being an informed citizen. This book is designed as a supplementary text for methods classes in elementary science and language arts education. It is also intended as a resource and guide for preservice and inservice elementary and middle school teachers.
In this book, the authors integrate STEM (i.e., science, technology, engineering, and mathematics) concepts and the cultivation of young minds in order to be open to innovation. This book uses STEM instruction as blurring the lines among basic subject areas. Often, it's more than integrating science, mathematics, engineering, and technology. Ideas, activities, and projects can be integrated with lessons from the language arts to the Arts as well. In this book, STEM is treated as more of a philosophy than a program or a set of activities.
This book makes a case for a STEM-based approach across the curriculum by highlighting the potential impacts of rapid societal change, newly emerging information technologies, and the increasing demand for a new generation of skillful and well-rounded citizens and workers. The book discusses how thinking skills, collaborative learning, communications-related information technologies, science and math, language and literacy, and arts education can be used as mutually reinforcing instruments in preparing young learners. The role of the family, teachers, and school administration in creating an environment where young students can stand a chance is also articulated. Above all, the book reiterates the value of pedagogically attuned teachers who are sensitive to the diversity of backgrounds and capabilities of students. They will oversee and guide the transformation of young learners who will be trained to trust their creativity, humanity, and critical thinking skills in navigating the 21st century world.
Love in the Time of Ethnography explores love - variously defined - as an important facet of human life and a worthy focus of study. The authors look at love in association with an Alevi and Sunni couple in Turkey, organizers of Mexican American and immigrant youth movements, Christian missionaries in China, an elderly man with dementia, two women "coming home" to queer identity, a White researcher working with Black women in the US, the common ground between Dogen's Zen teachings and Habermas's critical theory, an Albanian Sufi community in Michigan and interactions between humans and the natural world. It also includes theoretical writing on the place of love in social analysis, whether this involves relationships between researchers and participants or the nature of human connection itself. The authors argue that social research is an affective process as well as a cognitive one, and that fellow feeling is an essential component of making sense of the world. Along with more traditional scholarly forms, the contributors to this book use auto-ethnography, life stories, archival research and poetry, noting that style itself conveys information and emotion. Writing is always to some extent partisan. While anthropologists and other social researchers have explored this idea over the last few decades, they have more often explored it with an eye to critique than to the ideals underlying that critique. This is a collection of essays about what ethnographers are aiming for as well as the problems they address, and the authors discuss ethical principles like agape, hizmet and carino as rationales for ethnography and rationales for social change.
Shaping the Future with Math, Science, and Technology examines how ingenuity, creativity, and teamwork skills are part of an intellectual toolbox associated with math, science, and technology. The book provides new ideas, proven processes, practical tools, and examples useful to educators who want to encourage students to solve problems and express themselves in imaginative ways. The development of a technological knowledge-based economy depends on the development of educational systems that allow schools, teachers, and students of diverse capabilities, backgrounds and learning preferences do better with both content and imaginative problem solving. This book makes the case that it is, indeed, possible to educate our way to a better economy and a better future. Paying attention to 21st century approaches and skills can help accomplish those goals.
This book will help educators design STEM programs and lessons that foster teamwork and thinking while getting students actively involved in their own learning. There are many practical ideas and lesson plans that will help teachers reach both eager and reluctant learners. The suggestions for STEM curriculum and instruction are research based and standards driven. This book looks at collaborative learning, differentiation, and diversity all the while building instruction in the STEM subjects and good hands-on materials. This is done in a way that is designed to help every student feel successful and part of the class as a whole. It shows a deep respect for the unique relationship between teachers and their students as they try to navigate their way into the future. Suggestions are designed to help learners question, analyze, interpret, problem solve, and discover. The STEM subjects of science, technology, engineering, and math are essential to understanding the world of today and the world of tomorrow. The authors view is that it takes more than innovation alone; for innovation to be useful, products of the imagination must be arranged in ways that allow them to be used to solve real world problems.
This book will help educators design STEM programs and lessons that foster teamwork and thinking while getting students actively involved in their own learning. There are many practical ideas and lesson plans that will help teachers reach both eager and reluctant learners. The suggestions for STEM curriculum and instruction are research based and standards driven. This book looks at collaborative learning, differentiation, and diversity all the while building instruction in the STEM subjects and good hands-on materials. This is done in a way that is designed to help every student feel successful and part of the class as a whole. It shows a deep respect for the unique relationship between teachers and their students as they try to navigate their way into the future. Suggestions are designed to help learners question, analyze, interpret, problem solve, and discover. The STEM subjects of science, technology, engineering, and math are essential to understanding the world of today and the world of tomorrow. The authors view is that it takes more than innovation alone; for innovation to be useful, products of the imagination must be arranged in ways that allow them to be used to solve real world problems.
Hamm and Adams present models to help teachers identify student learning problems-recognizing when to re-teach, when to move ahead, and when to explain or give more examples. Activating Assessment for All Students takes all of these into account when it provides differentiated science/math methods and goes on to suggest ways that formative assessment practices can inform differentiated teaching, learning, and assessment. These methods promote success for more students by helping teachers develop informative assessment for lessons and related tools for reaching the varying levels of student competencies within their classes. This book builds on the expanding knowledge of what works in classrooms and suggests approaches that can open up individual and group possibilities for science and mathematics instruction. It intends to help you answer the following questions: * What is differentiated instructional assessment? * How can I amplify the results of DI by using formative assessments? * How might quality assessment tools (like portfolios) benefit all students? * How will I know that differentiated formative assessment works?
In this book, the authors integrate STEM (i.e., science, technology, engineering, and mathematics) concepts and the cultivation of young minds in order to be open to innovation. This book uses STEM instruction as blurring the lines among basic subject areas. Often, it's more than integrating science, mathematics, engineering, and technology. Ideas, activities, and projects can be integrated with lessons from the language arts to the Arts as well. In this book, STEM is treated as more of a philosophy than a program or a set of activities.
Teaching Math, Science, and Technology in Schools Today: Guidelines for Engaging Both Eager and Reluctant Learners offers unique, engaging, and thought-provoking ideas. The activities open imaginative doors to learning and provide opportunities for all learners. It surveys today's most important trends and dilemmas while explaining how collaboration and critical thinking can be translated into fresh classroom practices. Questions, engagement, and curiosity are viewed as natural partners for mathematical problem solving, scientific inquiry, and learning about technology. Like the Common Core State Standards, the book builds on the social nature of learning to provide suggestions for both eager and reluctant learners. The overall goal of the book is to deepen the collective conversation, challenge thinking, and provide some up-to-date tools for teachers so they can help reverse the steady erosion of math, science, and technology understanding in the general population.
In a rapidly evolving local and global economy, skills related to mathematical problem solving, scientific inquiry, and technological innovation are becoming more critical for success in and out of school. Thus, Demystify Math, Science, and Technology addresses the need to cultivate these skills in young students so that ingenuity, teamwork, and imaginative skills become part of their arsenal in dealing with real world challenges. This whole package of attributes is essential for learners imagining new scenarios and future work in areas that don't even exist yet. Another important issue is that teachers now deal with students who span the entire spectrum of learning. Students differ widely in levels of preparedness, personal interests, and cultural ways of seeing and experiencing the world. One size does not fit all. Teachers need to learn to turn diversity into an advantage because innovation builds on the social nature of learning; the more diverse the inputs, the more interesting the outputs. The authors also believe that no one should be sidelined with basic skill training in a way that keeps them away from the creative and collaborative engagement associated with problem solving, inquiry, and the technological products of math and science.
Hamm and Adams present models to help teachers identify student learning problems-recognizing when to re-teach, when to move ahead, and when to explain or give more examples. Activating Assessment for All Students takes all of these into account when it provides differentiated science/math methods and goes on to suggest ways that formative assessment practices can inform differentiated teaching, learning, and assessment. These methods promote success for more students by helping teachers develop informative assessment for lessons and related tools for reaching the varying levels of student competencies within their classes. This book builds on the expanding knowledge of what works in classrooms and suggests approaches that can open up individual and group possibilities for science and mathematics instruction. It intends to help you answer the following questions: * What is differentiated instructional assessment? * How can I amplify the results of DI by using formative assessments? * How might quality assessment tools (like portfolios) benefit all students? * How will I know that differentiated formative assessment works?
Profound societal changes in the economic, technological, social, and educational fronts pose challenges for educators in their ability to equip young students with the skills and capabilities needed to navigate a digitally connected and complex world. Tomorrow's Innovators: Essential Skills For A Changing World focuses on approaches and methods to help teachers infuse their basic subject matter lessons with creativity, innovation, and adaptability. On a broader scale, we provide elementary and middle school educators with insights into current educational issues and suggestions for converting new ideas into practical classroom applications. Teachers need to transform the classroom or school into a contemporary learning environment by paying attention to consistent classroom routines, using assessment data for improvement, and having a coherent organizational structure. The old foundations of reading, writing, and mathematics and the new basics of science, technology, and the arts will be at the core of schooling. More than ever, thinking about curriculum and instruction has to occur as the traditional boundaries between politics, technology, culture, education, and ecology disappear.
Shaping the Future with Math, Science, and Technology examines how ingenuity, creativity, and teamwork skills are part of an intellectual toolbox associated with math, science, and technology. The book provides new ideas, proven processes, practical tools, and examples useful to educators who want to encourage students to solve problems and express themselves in imaginative ways. The development of a technological knowledge-based economy depends on the development of educational systems that allow schools, teachers, and students of diverse capabilities, backgrounds and learning preferences do better with both content and imaginative problem solving. This book makes the case that it is, indeed, possible to educate our way to a better economy and a better future. Paying attention to 21st century approaches and skills can help accomplish those goals.
Technology is viewed as a powerful force both in and out of school and has long been linked with math and science. Although concepts and activities of this book apply to any grade, the primary focus is on the elementary and middle school levels. This book provides principles and practical strategies for promoting creative and innovative work in math, science, and technology. The authors pay close attention to the social nature of learning and how collaboration can spark student interest in open-ended problem-solving. Shining a light on mathematic, scientific, and technological processes gives everyone more control over what is going on around them and increases understanding of how things work.
Hamm and Adams present models to help teachers identify student learning problems_recognizing when to re-teach, when to move ahead, and when to explain or give more examples. Activating Assessment for All Students takes all of these into account when it provides differentiated science/math methods and goes on to suggest ways that formative assessment practices can inform differentiated teaching, learning, and assessment. These methods promote success for more students by helping teachers develop informative assessment for lessons and related tools for reaching the varying levels of student competencies within their classes. This book builds on the expanding knowledge of what works in classrooms and suggests approaches that can open up individual and group possibilities for science and mathematics instruction. It intends to help you answer the following questions: * What is differentiated instructional assessment? * How can I amplify the results of DI by using formative assessments? * How might quality assessment tools (like portfolios) benefit all students? * How will I know that differentiated formative assessment works?
Helping Students Who Struggle With Math and Science builds on the social nature of learning to provide useful suggestions for reaching reluctant learners. It is based on the assumption that instruction that focuses on students' interests and builds on collaborative and differentiated learning will allow students to move from believing they "can't do mathematics or science" to a feeling of genuine achievement and confidence.
Helping Students Who Struggle With Math and Science builds on the social nature of learning to provide useful suggestions for reaching reluctant learners. It is based on the assumption that instruction that focuses on students' interests and builds on collaborative and differentiated learning will allow students to move from believing they 'can't do mathematics or science' to a feeling of genuine achievement and confidence.
First Published in 2000. Routledge is an imprint of Taylor and Francis, an informa company.
This book offers practical recommendations to reach every student in a K-8 classroom. Research-based and written in a teacher-friendly style, it will help teachers with classroom organization and lesson planning in math and science. Included are math and science games, activities, ideas, and lesson plans based on the math and science standards. This book will help your students to develop positive attitudes and raise competency in math and science.
This book offers practical recommendations to reach every student in a K-8 classroom. Research-based and written in a teacher-friendly style, it will help teachers with classroom organization and lesson planning in math and science. Included are math and science games, activities, ideas, and lesson plans based on the math and science standards. This book will help your students to develop positive attitudes and raise competency in math and science.
This book defines literacy broadly as it explores concepts within
core subjects and shows how to make standards-based literacy the
goal and outcome of school reform. It imagines a future digital
medium where educational technology is worthy of the spirit our
children bring to it.
Technology is viewed as a powerful force both in and out of school and has long been linked with math and science. Although concepts and activities of this book apply to any grade, the primary focus is on the elementary and middle school levels. This book provides principles and practical strategies for promoting creative and innovative work in math, science, and technology. The authors pay close attention to the social nature of learning and how collaboration can spark student interest in open-ended problem-solving. Shining a light on mathematic, scientific, and technological processes gives everyone more control over what is going on around them and increases understanding of how things work.
This book builds on an interdisciplinary approach that combines two or more of the STEM subjects. The goal is to help students see the relationship among science, technology, engineering, and mathematics. Useful ideas, activities, and lesson plans are part of the package. It is up to the teachers to encourage students to apply STEM knowledge to interesting real-world problems. Motivating ideas and activities are presented in this book. Teacher/student friendly suggestions build on collaboration, communication, critical thinking, and creativity. Creating a STEM culture in the classroom can help students learn the qualities that must be cultivated in a technology-intensive world. Innovations that radiate from the STEM subjects are driven by intellectual curiosity and the ability to act on beliefs. The future is something we can and should influence. Understanding of the STEM subjects is key to making a positive difference.
Teaching Math, Science, and Technology in Schools Today: Guidelines for Engaging Both Eager and Reluctant Learners offers unique, engaging, and thought-provoking ideas. The activities open imaginative doors to learning and provide opportunities for all learners. It surveys today's most important trends and dilemmas while explaining how collaboration and critical thinking can be translated into fresh classroom practices. Questions, engagement, and curiosity are viewed as natural partners for mathematical problem solving, scientific inquiry, and learning about technology. Like the Common Core State Standards, the book builds on the social nature of learning to provide suggestions for both eager and reluctant learners. The overall goal of the book is to deepen the collective conversation, challenge thinking, and provide some up-to-date tools for teachers so they can help reverse the steady erosion of math, science, and technology understanding in the general population. |
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