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This book broadly educates preservice teachers and scholars about current research on computational thinking (CT). More specifically, attention is given to computational algorithmic thinking (CAT), particularly among underrepresented K–12 student groups in STEM education. Computational algorithmic thinking (CAT)—a precursor to CT—is explored in this text as the ability to design, implement, and evaluate the application of algorithms to solve a variety of problems. Drawing on observations from research studies that focused on innovative STEM programs, including underrepresented students in rural, suburban, and urban contexts, the authors reflect on project-based learning experiences, pedagogy, and evaluation that are conducive to developing advanced computational thinking, specifically among diverse student populations. This practical text includes vignettes and visual examples to illustrate how coding, computer modeling, robotics, and drones may be used to promote CT and CAT among students in diverse classrooms.
Book Synopsis Fostering Computational Thinking Among Underrepresented Students in STEM by : Jacqueline Leonard
Download or read book Fostering Computational Thinking Among Underrepresented Students in STEM written by Jacqueline Leonard and published by Routledge. This book was released on 2021-08-11 with total page 247 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book broadly educates preservice teachers and scholars about current research on computational thinking (CT). More specifically, attention is given to computational algorithmic thinking (CAT), particularly among underrepresented K–12 student groups in STEM education. Computational algorithmic thinking (CAT)—a precursor to CT—is explored in this text as the ability to design, implement, and evaluate the application of algorithms to solve a variety of problems. Drawing on observations from research studies that focused on innovative STEM programs, including underrepresented students in rural, suburban, and urban contexts, the authors reflect on project-based learning experiences, pedagogy, and evaluation that are conducive to developing advanced computational thinking, specifically among diverse student populations. This practical text includes vignettes and visual examples to illustrate how coding, computer modeling, robotics, and drones may be used to promote CT and CAT among students in diverse classrooms.
Empower tomorrow’s tech innovators Our students are avid users and consumers of technology. Isn’t it time that they see themselves as the next technological innovators, too? Computational Thinking and Coding for Every Student is the beginner’s guide for K-12 educators who want to learn to integrate the basics of computer science into their curriculum. Readers will find Practical strategies for teaching computational thinking and the beginning steps to introduce coding at any grade level, across disciplines, and during out-of-school time Instruction-ready lessons and activities for every grade Specific guidance for designing a learning pathway for elementary, middle, or high school students Justification for making coding and computer science accessible to all A glossary with definitions of key computer science terms, a discussion guide with tips for making the most of the book, and companion website with videos, activities, and other resources Momentum for computer science education is growing as educators and parents realize how fundamental computing has become for the jobs of the future. This book is for educators who see all of their students as creative thinkers and active contributors to tomorrow’s innovations. "Kiki Prottsman and Jane Krauss have been at the forefront of the rising popularity of computer science and are experts in the issues that the field faces, such as equity and diversity. In this book, they’ve condensed years of research and practitioner experience into an easy to read narrative about what computer science is, why it is important, and how to teach it to a variety of audiences. Their ideas aren’t just good, they are research-based and have been in practice in thousands of classrooms...So to the hundreds and thousands of teachers who are considering, learning, or actively teaching computer science—this book is well worth your time." Pat Yongpradit Chief Academic Officer, Code.org
Book Synopsis Computational Thinking and Coding for Every Student by : Jane Krauss
Download or read book Computational Thinking and Coding for Every Student written by Jane Krauss and published by Corwin Press. This book was released on 2016-10-28 with total page 212 pages. Available in PDF, EPUB and Kindle. Book excerpt: Empower tomorrow’s tech innovators Our students are avid users and consumers of technology. Isn’t it time that they see themselves as the next technological innovators, too? Computational Thinking and Coding for Every Student is the beginner’s guide for K-12 educators who want to learn to integrate the basics of computer science into their curriculum. Readers will find Practical strategies for teaching computational thinking and the beginning steps to introduce coding at any grade level, across disciplines, and during out-of-school time Instruction-ready lessons and activities for every grade Specific guidance for designing a learning pathway for elementary, middle, or high school students Justification for making coding and computer science accessible to all A glossary with definitions of key computer science terms, a discussion guide with tips for making the most of the book, and companion website with videos, activities, and other resources Momentum for computer science education is growing as educators and parents realize how fundamental computing has become for the jobs of the future. This book is for educators who see all of their students as creative thinkers and active contributors to tomorrow’s innovations. "Kiki Prottsman and Jane Krauss have been at the forefront of the rising popularity of computer science and are experts in the issues that the field faces, such as equity and diversity. In this book, they’ve condensed years of research and practitioner experience into an easy to read narrative about what computer science is, why it is important, and how to teach it to a variety of audiences. Their ideas aren’t just good, they are research-based and have been in practice in thousands of classrooms...So to the hundreds and thousands of teachers who are considering, learning, or actively teaching computer science—this book is well worth your time." Pat Yongpradit Chief Academic Officer, Code.org
An exploration of coding that investigates the interplay between computational abstractions and the fundamentally interpretive nature of human experience. The importance of coding in K-12 classrooms has been taken up by both scholars and educators. Voicing Code in STEM offers a new way to think about coding in the classroom--one that goes beyond device-level engagement to consider the interplay between computational abstractions and the fundamentally interpretive nature of human experience. Building on Mikhail Bakhtin's notions of heterogeneity and heteroglossia, the authors explain how STEM coding can be understood as voicing computational utterances, rather than a technocentric framing of building computational artifacts. Empirical chapters illustrate this theoretical stance by investigating different framings of coding as voicing.
Book Synopsis Voicing Code in STEM by : Pratim Sengupta
Download or read book Voicing Code in STEM written by Pratim Sengupta and published by MIT Press. This book was released on 2021-03-09 with total page 230 pages. Available in PDF, EPUB and Kindle. Book excerpt: An exploration of coding that investigates the interplay between computational abstractions and the fundamentally interpretive nature of human experience. The importance of coding in K-12 classrooms has been taken up by both scholars and educators. Voicing Code in STEM offers a new way to think about coding in the classroom--one that goes beyond device-level engagement to consider the interplay between computational abstractions and the fundamentally interpretive nature of human experience. Building on Mikhail Bakhtin's notions of heterogeneity and heteroglossia, the authors explain how STEM coding can be understood as voicing computational utterances, rather than a technocentric framing of building computational artifacts. Empirical chapters illustrate this theoretical stance by investigating different framings of coding as voicing.
This This book is open access under a CC BY 4.0 license.This book offers a comprehensive guide, covering every important aspect of computational thinking education. It provides an in-depth discussion of computational thinking, including the notion of perceiving computational thinking practices as ways of mapping models from the abstraction of data and process structures to natural phenomena. Further, it explores how computational thinking education is implemented in different regions, and how computational thinking is being integrated into subject learning in K-12 education. In closing, it discusses computational thinking from the perspective of STEM education, the use of video games to teach computational thinking, and how computational thinking is helping to transform the quality of the workforce in the textile and apparel industry.
Book Synopsis Computational Thinking Education by : Siu-Cheung Kong
Download or read book Computational Thinking Education written by Siu-Cheung Kong and published by Springer. This book was released on 2019-07-04 with total page 377 pages. Available in PDF, EPUB and Kindle. Book excerpt: This This book is open access under a CC BY 4.0 license.This book offers a comprehensive guide, covering every important aspect of computational thinking education. It provides an in-depth discussion of computational thinking, including the notion of perceiving computational thinking practices as ways of mapping models from the abstraction of data and process structures to natural phenomena. Further, it explores how computational thinking education is implemented in different regions, and how computational thinking is being integrated into subject learning in K-12 education. In closing, it discusses computational thinking from the perspective of STEM education, the use of video games to teach computational thinking, and how computational thinking is helping to transform the quality of the workforce in the textile and apparel industry.
Book Synopsis Fostering Computational Thinking Skills with Tangible User Interfaces by : Tommaso Turchi
Download or read book Fostering Computational Thinking Skills with Tangible User Interfaces written by Tommaso Turchi and published by . This book was released on 2019 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
"This book examines the implementation of computational thinking into school curriculum in order to develop creative problem-solving skills and to build a computational identity which will allow for future STEM growth"--
Book Synopsis Handbook of Research on Tools for Teaching Computational Thinking in P-12 Education by : Michail Kalogiannakis
Download or read book Handbook of Research on Tools for Teaching Computational Thinking in P-12 Education written by Michail Kalogiannakis and published by . This book was released on 2020 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: "This book examines the implementation of computational thinking into school curriculum in order to develop creative problem-solving skills and to build a computational identity which will allow for future STEM growth"--
Though there has been a rapid increase of women’s representation in law and business, their representation in STEM fields has not been matched. Researchers have revealed that there are several environmental and social barriers including stereotypes, gender bias, and the climate of science and engineering departments in colleges and universities that continue to block women’s progress in STEM. In this book, the authors address the issues that encounter women of color in STEM in higher education.
Book Synopsis Women of Color In STEM by : Beverly Irby
Download or read book Women of Color In STEM written by Beverly Irby and published by IAP. This book was released on 2021-03-01 with total page 181 pages. Available in PDF, EPUB and Kindle. Book excerpt: Though there has been a rapid increase of women’s representation in law and business, their representation in STEM fields has not been matched. Researchers have revealed that there are several environmental and social barriers including stereotypes, gender bias, and the climate of science and engineering departments in colleges and universities that continue to block women’s progress in STEM. In this book, the authors address the issues that encounter women of color in STEM in higher education.
This pioneering book offers a resource for educators, policymakers, researchers, exhibit designers, and program developers that illuminates creative, cutting-edge ways to inspire, engage, and motivate young people about STEM learning in both informal and formal education settings. A follow-up to the popular book Design, Make, Play (2013), this volume combines new research, innovative case studies, and practical advice from the New York Hall of Science (NYSCI) to define and illustrate a vision for creative and immersive learning, focusing on STEM learning experiences that are truly equitable and inclusive, and that foster learners' agency. Featuring contributions from program developers, facilitators, educators, exhibit designers, and researchers, the book provides real-world examples from informal and formal settings that fill the need for high-quality STEM learning opportunities that are accessible to all learners, including groups underrepresented in STEM education and careers. Chapters of the book describe strategies such as using narratives to make engineering learning more inclusive, engaging English language learners in digital design, focusing on whole-family learning, and introducing underserved students to computational thinking through an immersive, computer game. This book offers both a challenge and a guide to all STEM educators in museums, science centers, and other informal and formal education settings who are seeking out ambitious and more equitable forms of engagement. With leading-edge research and practical advice, the book provides appealing and accessible forms of engagement that will support a diverse range of audiences and deepen their approach to creative STEM learning.
Book Synopsis Design Make Play for Equity, Inclusion, and Agency by : Harouna Ba
Download or read book Design Make Play for Equity, Inclusion, and Agency written by Harouna Ba and published by . This book was released on 2021 with total page 224 pages. Available in PDF, EPUB and Kindle. Book excerpt: This pioneering book offers a resource for educators, policymakers, researchers, exhibit designers, and program developers that illuminates creative, cutting-edge ways to inspire, engage, and motivate young people about STEM learning in both informal and formal education settings. A follow-up to the popular book Design, Make, Play (2013), this volume combines new research, innovative case studies, and practical advice from the New York Hall of Science (NYSCI) to define and illustrate a vision for creative and immersive learning, focusing on STEM learning experiences that are truly equitable and inclusive, and that foster learners' agency. Featuring contributions from program developers, facilitators, educators, exhibit designers, and researchers, the book provides real-world examples from informal and formal settings that fill the need for high-quality STEM learning opportunities that are accessible to all learners, including groups underrepresented in STEM education and careers. Chapters of the book describe strategies such as using narratives to make engineering learning more inclusive, engaging English language learners in digital design, focusing on whole-family learning, and introducing underserved students to computational thinking through an immersive, computer game. This book offers both a challenge and a guide to all STEM educators in museums, science centers, and other informal and formal education settings who are seeking out ambitious and more equitable forms of engagement. With leading-edge research and practical advice, the book provides appealing and accessible forms of engagement that will support a diverse range of audiences and deepen their approach to creative STEM learning.
Learning used to be confined to a physical place. Now, it’s no longer limited by walls or daylight or location. Learning happens in spaces that transcend these boundaries. These spaces can still have physical elements, but they are no longer defined by a physical footprint and constrained by the limitations of time, space, and matter. Learning can now take place on any device, in any place, and at any time. 21st century skills are one of the concepts we use most frequently when talking about innovative education. We see that the skills, referred to as 21st century skills, include cognitive skills such as creative thinking, problem solving, as well as many different social and emotional skills such as understanding, expressing, empathy and teamwork. Many educators now agree that not only academic knowledge is sufficient, but social-emotional skills play a role as much as academic knowledge in a person's success and happiness. Another accepted fact is the phenomenon of lifelong learning: the fact that education does not start at school but does not end at school, in fact, it is a process that should continue throughout life. While accepting all this, a subject that is not discussed much; how this holistic, lifelong learning is possible in a class in the form of 40 minutes lessons and 10 minutes of break. While we are designing various kinds of education programs for children to gain all these different skill sets in the classroom, do not we actually keep these skills in the easiest way, practically away from the environments they will acquire? In John Dewey's book, “Experience and Education” (1938), information obtained as detached from real life is depicted as wasted time and effort. Most teachers are already aware of this situation. For this reason, they try to explain math problems and literacy by linking them to children's experiences and lives as much as possible, and they do many big and small experiments in social sciences and science lessons. Can't we go one step further than this? Can't we make learning in life a part of our education system, instead of preparing small examples of real life for children? With many justified concerns such as assessment, security, teachers' pedagogical infrastructure, we miss out on the most important opportunities for education just because they are outside the walls of the school? This book aims to open new horizons in the journey of learning beyond the school walls in the world and contribute to the spread of learning in our society. In societies where constant change is the norm, schools today must prepare students to be successful in environments and contexts that may differ greatly from what we experience today. But, are we really thinking about the future? With contributions from seven continents, this book will reveal a ‘snapshot’ of some of our best thinking for building new education futures. Diverse experiences, visions, and ideas are shared to help spark new thinking among educators and policymakers, provoke conversation, and facilitate new ideas for meeting human development needs in a rapidly transforming world.
Book Synopsis Redesigning the Future of Education in the Light of New Theories, Teaching Methods, Learning, and Research by : ?enol Orakc?
Download or read book Redesigning the Future of Education in the Light of New Theories, Teaching Methods, Learning, and Research written by ?enol Orakc? and published by IAP. This book was released on 2024-04-01 with total page 324 pages. Available in PDF, EPUB and Kindle. Book excerpt: Learning used to be confined to a physical place. Now, it’s no longer limited by walls or daylight or location. Learning happens in spaces that transcend these boundaries. These spaces can still have physical elements, but they are no longer defined by a physical footprint and constrained by the limitations of time, space, and matter. Learning can now take place on any device, in any place, and at any time. 21st century skills are one of the concepts we use most frequently when talking about innovative education. We see that the skills, referred to as 21st century skills, include cognitive skills such as creative thinking, problem solving, as well as many different social and emotional skills such as understanding, expressing, empathy and teamwork. Many educators now agree that not only academic knowledge is sufficient, but social-emotional skills play a role as much as academic knowledge in a person's success and happiness. Another accepted fact is the phenomenon of lifelong learning: the fact that education does not start at school but does not end at school, in fact, it is a process that should continue throughout life. While accepting all this, a subject that is not discussed much; how this holistic, lifelong learning is possible in a class in the form of 40 minutes lessons and 10 minutes of break. While we are designing various kinds of education programs for children to gain all these different skill sets in the classroom, do not we actually keep these skills in the easiest way, practically away from the environments they will acquire? In John Dewey's book, “Experience and Education” (1938), information obtained as detached from real life is depicted as wasted time and effort. Most teachers are already aware of this situation. For this reason, they try to explain math problems and literacy by linking them to children's experiences and lives as much as possible, and they do many big and small experiments in social sciences and science lessons. Can't we go one step further than this? Can't we make learning in life a part of our education system, instead of preparing small examples of real life for children? With many justified concerns such as assessment, security, teachers' pedagogical infrastructure, we miss out on the most important opportunities for education just because they are outside the walls of the school? This book aims to open new horizons in the journey of learning beyond the school walls in the world and contribute to the spread of learning in our society. In societies where constant change is the norm, schools today must prepare students to be successful in environments and contexts that may differ greatly from what we experience today. But, are we really thinking about the future? With contributions from seven continents, this book will reveal a ‘snapshot’ of some of our best thinking for building new education futures. Diverse experiences, visions, and ideas are shared to help spark new thinking among educators and policymakers, provoke conversation, and facilitate new ideas for meeting human development needs in a rapidly transforming world.
While the growth of computational thinking has brought new awareness to the importance of computing education, it has also created new challenges. Many educational initiatives focus solely on the programming aspects, such as variables, loops, conditionals, parallelism, operators, and data handling, divorcing computing from real-world contexts and applications. This decontextualization threatens to make learners believe that they do not need to learn computing, as they cannot envision a future in which they will need to use it, just as many see math and physics education as unnecessary. The Handbook of Research on Tools for Teaching Computational Thinking in P-12 Education is a cutting-edge research publication that examines the implementation of computational thinking into school curriculum in order to develop creative problem-solving skills and to build a computational identity which will allow for future STEM growth. Moreover, the book advocates for a new approach to computing education that argues that while learning about computing, young people should also have opportunities to create with computing, which will have a direct impact on their lives and their communities. Featuring a wide range of topics such as assessment, digital teaching, and educational robotics, this book is ideal for academicians, instructional designers, teachers, education professionals, administrators, researchers, and students.
Book Synopsis Handbook of Research on Tools for Teaching Computational Thinking in P-12 Education by : Kalogiannakis, Michail
Download or read book Handbook of Research on Tools for Teaching Computational Thinking in P-12 Education written by Kalogiannakis, Michail and published by IGI Global. This book was released on 2020-06-26 with total page 568 pages. Available in PDF, EPUB and Kindle. Book excerpt: While the growth of computational thinking has brought new awareness to the importance of computing education, it has also created new challenges. Many educational initiatives focus solely on the programming aspects, such as variables, loops, conditionals, parallelism, operators, and data handling, divorcing computing from real-world contexts and applications. This decontextualization threatens to make learners believe that they do not need to learn computing, as they cannot envision a future in which they will need to use it, just as many see math and physics education as unnecessary. The Handbook of Research on Tools for Teaching Computational Thinking in P-12 Education is a cutting-edge research publication that examines the implementation of computational thinking into school curriculum in order to develop creative problem-solving skills and to build a computational identity which will allow for future STEM growth. Moreover, the book advocates for a new approach to computing education that argues that while learning about computing, young people should also have opportunities to create with computing, which will have a direct impact on their lives and their communities. Featuring a wide range of topics such as assessment, digital teaching, and educational robotics, this book is ideal for academicians, instructional designers, teachers, education professionals, administrators, researchers, and students.
