Verfügbarkeit: Digital learning and teaching in chemistry /

Digital learning and teaching in chemistry /:

Education is always evolving, and most recently has shifted to increased online or remote learning. Digital Learning and Teaching in Chemistry compiles the established and emerging trends in this field, specifically within the context of learning and teaching in chemistry. This book shares insights...

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Bibliographische Detailangaben
Körperschaft:	ProQuest (Firm)
Weitere Verfasser:	Dori, Y. (Yehudit) (HerausgeberIn), Ngai, Courtney (HerausgeberIn), Szteinberg, Gabriela (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Cambridge : Royal Society of Chemistry, 2023.
Schriftenreihe:	Advances in chemistry education series.
Schlagworte:	Chemistry > Computer-assisted instruction. Chemistry > Study and teaching. Chimie > Enseignement assisté par ordinateur. Chimie > Étude et enseignement. Chemistry > Computer-assisted instruction Chemistry > Study and teaching
Online-Zugang:	Volltext
Zusammenfassung:	Education is always evolving, and most recently has shifted to increased online or remote learning. Digital Learning and Teaching in Chemistry compiles the established and emerging trends in this field, specifically within the context of learning and teaching in chemistry. This book shares insights about five major themes: best practices for teaching and learning digitally, digital learning platforms, virtual visualisation and laboratory to promote learning in science, digital assessment, and building communities of learners and educators. The authors are chemistry instructors and researchers from nine countries, contributing an international perspective on digital learning and teaching in chemistry. While the chapters in this book span a wide variety of topics, as a whole, they focus on using technology and digital platforms as a method for supporting inclusive and meaningful learning. The best practices and recommendations shared by the authors are highly relevant for modern chemistry education, as teaching and learning through digital methods is likely to persist. Furthermore, teaching chemistry digitally has the potential to bring greater equity to the field of chemistry education in terms of who has access to quality learning, and this book will contribute to that goal. This book will be essential reading for those working in chemical education and teaching. Yehudit Judy Dori is internationally recognised, formerly Dean of the Faculty of Education of Science and Technology at the Technion Israel Institute of Technology and won the 2020 NARST Distinguished Contributions to Science Education through Research AwardDCRA for her exceptional research contributions. Courtney Ngai and Gabriela Szteinberg are passionate researchers and practitioners in the education field. Courtney Ngai is the Associate Director of the Office of Undergraduate Research and Artistry at Colorado State University. Gabriela Szteinberg serves as Assistant Dean and Academic Coordinator for the College of Arts and Sciences at Washington University in St. Louis.
Beschreibung:	Available through Ebscohost.
Beschreibung:	1 online resource (xliv, 436 pages) : illustrations.
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781839167942 1839167947 9781839167959 1839167955

Internformat

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505	0		\|a Digital Learning and Teaching in Chemistry -- What We Know and What We Wish to Investigate Further;Theme Introduction: Best Practices of Teaching and Learning Digitally;Supportive Aspects of Online Learning and Teaching -- What Does a Rapid Transition Teach Us?;Adapting Large Intro-level Chemistry Courses to Fully Remote or Hybrid Instruction;Personalized Support for Students Learning Chemistry Online -- The Development of a Prediction Model;A Framework for Learning to Teach Chemistry on a Digital Platform: The Case of Chemical Equilibrium;Learning with Digital Media About the Chemistry Behind the Recycling of Digital Hardware;Chemistry-based Information in Social Media in the Light of Scientific Media Literacy -- Teachers' Views and Classroom Implementation in Secondary Education;Digital Learning Platforms: Digital Platforms for Increasing Inclusion in Chemistry Education;Group Diversity and Innovative Thinking: Lessons Learned From a MOOC on Nanotechnology;Integrating Web-based Learning to Make Industrial and Everyday Life Chemistry Accessible to High School Chemistry Students;The Next Level in Inclusive Chemistry Education: A Model Approach Using a Multitouch Learning Book;Can YouTubers Provide Powerful Tools for Addressing Heterogeneity in the Classroom? An Analysis of Videos About the Periodic Table Using the TPACK Framework;A Formalized Conceptual Model-based Approach for Fostering and Assessing Students' Systems Thinking in Undergraduate Chemistry Education;Chemistry Teachers' Awareness of Sustainability Through Social Media: Cultural Differences;Using Visualization and Laboratory to Promote Learning in Science;Applications of Digital Technology in Chemical Education;Designing Virtual Chemistry Visualizations Featuring Environmental Dilemmas to Promote Equitable Knowledge Integration;Designing Tutorial Videos to Support Students' Learning of Reaction Mechanisms in Organic Chemistry;Digital Tools for Equitable in Person and Remote Chemistry Learning;Smartphone Applications as a Catalyst for Active Learning in Chemistry: Investigating the Ideal Gas Law;Theme Introduction: Digital Assessment;The Community of Inquiry Framework as a Guide to Implement Inclusive Collaborative Two-stage Exams in Chemistry;Digital Formative Assessments for Learning;Online Assignments: Pre- and In-service Chemistry Teachers' Knowledge, Perceptions and Reflections;'I Felt Not So Alone': the Impact of Muddiest Point Activities on Student Learning Outcomes Through Top Hat Technology;Embedding Feedback in Digital Learning Environments to Promote Learners' Thinking About Their Thinking in Chemistry;Introduction to Building Communities of Learners and Educators;Bringing Back Learning Communities in the XXI Century;Supporting Chemistry Teachers in Emergency Remote Teaching -- The Role of Professional Learning Communities (PLCs);Strategies for Teaching Chemistry Online: A Community of Educators for the COVID-19 Pandemic and Beyond.
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contents	Digital Learning and Teaching in Chemistry -- What We Know and What We Wish to Investigate Further;Theme Introduction: Best Practices of Teaching and Learning Digitally;Supportive Aspects of Online Learning and Teaching -- What Does a Rapid Transition Teach Us?;Adapting Large Intro-level Chemistry Courses to Fully Remote or Hybrid Instruction;Personalized Support for Students Learning Chemistry Online -- The Development of a Prediction Model;A Framework for Learning to Teach Chemistry on a Digital Platform: The Case of Chemical Equilibrium;Learning with Digital Media About the Chemistry Behind the Recycling of Digital Hardware;Chemistry-based Information in Social Media in the Light of Scientific Media Literacy -- Teachers' Views and Classroom Implementation in Secondary Education;Digital Learning Platforms: Digital Platforms for Increasing Inclusion in Chemistry Education;Group Diversity and Innovative Thinking: Lessons Learned From a MOOC on Nanotechnology;Integrating Web-based Learning to Make Industrial and Everyday Life Chemistry Accessible to High School Chemistry Students;The Next Level in Inclusive Chemistry Education: A Model Approach Using a Multitouch Learning Book;Can YouTubers Provide Powerful Tools for Addressing Heterogeneity in the Classroom? An Analysis of Videos About the Periodic Table Using the TPACK Framework;A Formalized Conceptual Model-based Approach for Fostering and Assessing Students' Systems Thinking in Undergraduate Chemistry Education;Chemistry Teachers' Awareness of Sustainability Through Social Media: Cultural Differences;Using Visualization and Laboratory to Promote Learning in Science;Applications of Digital Technology in Chemical Education;Designing Virtual Chemistry Visualizations Featuring Environmental Dilemmas to Promote Equitable Knowledge Integration;Designing Tutorial Videos to Support Students' Learning of Reaction Mechanisms in Organic Chemistry;Digital Tools for Equitable in Person and Remote Chemistry Learning;Smartphone Applications as a Catalyst for Active Learning in Chemistry: Investigating the Ideal Gas Law;Theme Introduction: Digital Assessment;The Community of Inquiry Framework as a Guide to Implement Inclusive Collaborative Two-stage Exams in Chemistry;Digital Formative Assessments for Learning;Online Assignments: Pre- and In-service Chemistry Teachers' Knowledge, Perceptions and Reflections;'I Felt Not So Alone': the Impact of Muddiest Point Activities on Student Learning Outcomes Through Top Hat Technology;Embedding Feedback in Digital Learning Environments to Promote Learners' Thinking About Their Thinking in Chemistry;Introduction to Building Communities of Learners and Educators;Bringing Back Learning Communities in the XXI Century;Supporting Chemistry Teachers in Emergency Remote Teaching -- The Role of Professional Learning Communities (PLCs);Strategies for Teaching Chemistry Online: A Community of Educators for the COVID-19 Pandemic and Beyond.
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discipline	Chemie / Pharmazie
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spelling	Digital learning and teaching in chemistry / edited by Yehudit Dori, Courtney Ngai and Gabriela Szteinberg. Cambridge : Royal Society of Chemistry, 2023. 1 online resource (xliv, 436 pages) : illustrations. text txt rdacontent computer c rdamedia online resource cr rdacarrier Advances in chemistry education series. Available through Ebscohost. Includes bibliographical references and index. Education is always evolving, and most recently has shifted to increased online or remote learning. Digital Learning and Teaching in Chemistry compiles the established and emerging trends in this field, specifically within the context of learning and teaching in chemistry. This book shares insights about five major themes: best practices for teaching and learning digitally, digital learning platforms, virtual visualisation and laboratory to promote learning in science, digital assessment, and building communities of learners and educators. The authors are chemistry instructors and researchers from nine countries, contributing an international perspective on digital learning and teaching in chemistry. While the chapters in this book span a wide variety of topics, as a whole, they focus on using technology and digital platforms as a method for supporting inclusive and meaningful learning. The best practices and recommendations shared by the authors are highly relevant for modern chemistry education, as teaching and learning through digital methods is likely to persist. Furthermore, teaching chemistry digitally has the potential to bring greater equity to the field of chemistry education in terms of who has access to quality learning, and this book will contribute to that goal. This book will be essential reading for those working in chemical education and teaching. Yehudit Judy Dori is internationally recognised, formerly Dean of the Faculty of Education of Science and Technology at the Technion Israel Institute of Technology and won the 2020 NARST Distinguished Contributions to Science Education through Research AwardDCRA for her exceptional research contributions. Courtney Ngai and Gabriela Szteinberg are passionate researchers and practitioners in the education field. Courtney Ngai is the Associate Director of the Office of Undergraduate Research and Artistry at Colorado State University. Gabriela Szteinberg serves as Assistant Dean and Academic Coordinator for the College of Arts and Sciences at Washington University in St. Louis. Description based on resource viewed on September 18, 2023. Digital Learning and Teaching in Chemistry -- What We Know and What We Wish to Investigate Further;Theme Introduction: Best Practices of Teaching and Learning Digitally;Supportive Aspects of Online Learning and Teaching -- What Does a Rapid Transition Teach Us?;Adapting Large Intro-level Chemistry Courses to Fully Remote or Hybrid Instruction;Personalized Support for Students Learning Chemistry Online -- The Development of a Prediction Model;A Framework for Learning to Teach Chemistry on a Digital Platform: The Case of Chemical Equilibrium;Learning with Digital Media About the Chemistry Behind the Recycling of Digital Hardware;Chemistry-based Information in Social Media in the Light of Scientific Media Literacy -- Teachers' Views and Classroom Implementation in Secondary Education;Digital Learning Platforms: Digital Platforms for Increasing Inclusion in Chemistry Education;Group Diversity and Innovative Thinking: Lessons Learned From a MOOC on Nanotechnology;Integrating Web-based Learning to Make Industrial and Everyday Life Chemistry Accessible to High School Chemistry Students;The Next Level in Inclusive Chemistry Education: A Model Approach Using a Multitouch Learning Book;Can YouTubers Provide Powerful Tools for Addressing Heterogeneity in the Classroom? An Analysis of Videos About the Periodic Table Using the TPACK Framework;A Formalized Conceptual Model-based Approach for Fostering and Assessing Students' Systems Thinking in Undergraduate Chemistry Education;Chemistry Teachers' Awareness of Sustainability Through Social Media: Cultural Differences;Using Visualization and Laboratory to Promote Learning in Science;Applications of Digital Technology in Chemical Education;Designing Virtual Chemistry Visualizations Featuring Environmental Dilemmas to Promote Equitable Knowledge Integration;Designing Tutorial Videos to Support Students' Learning of Reaction Mechanisms in Organic Chemistry;Digital Tools for Equitable in Person and Remote Chemistry Learning;Smartphone Applications as a Catalyst for Active Learning in Chemistry: Investigating the Ideal Gas Law;Theme Introduction: Digital Assessment;The Community of Inquiry Framework as a Guide to Implement Inclusive Collaborative Two-stage Exams in Chemistry;Digital Formative Assessments for Learning;Online Assignments: Pre- and In-service Chemistry Teachers' Knowledge, Perceptions and Reflections;'I Felt Not So Alone': the Impact of Muddiest Point Activities on Student Learning Outcomes Through Top Hat Technology;Embedding Feedback in Digital Learning Environments to Promote Learners' Thinking About Their Thinking in Chemistry;Introduction to Building Communities of Learners and Educators;Bringing Back Learning Communities in the XXI Century;Supporting Chemistry Teachers in Emergency Remote Teaching -- The Role of Professional Learning Communities (PLCs);Strategies for Teaching Chemistry Online: A Community of Educators for the COVID-19 Pandemic and Beyond. Chemistry Computer-assisted instruction. http://id.loc.gov/authorities/subjects/sh85022993 Chemistry Study and teaching. http://id.loc.gov/authorities/subjects/sh85023008 Chimie Enseignement assisté par ordinateur. Chimie Étude et enseignement. Chemistry Computer-assisted instruction fast Chemistry Study and teaching fast Dori, Y. (Yehudit), editor. https://id.oclc.org/worldcat/entity/E39PBJv8KtYrrqGVR7kfJQJRrq https://isni.org/isni/000000038753148X http://id.loc.gov/authorities/names/no94031353 Ngai, Courtney, editor. Szteinberg, Gabriela, editor. ProQuest (Firm) http://id.loc.gov/authorities/names/n2007068018 Print version: Digital learning and teaching in chemistry. Volume 11. Cambridge : Royal Society of Chemistry, 2023 9781839165238 (OCoLC)1378022593 Advances in chemistry education series. http://id.loc.gov/authorities/names/no2019132487 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3644677 Volltext
spellingShingle	Digital learning and teaching in chemistry / Advances in chemistry education series. Digital Learning and Teaching in Chemistry -- What We Know and What We Wish to Investigate Further;Theme Introduction: Best Practices of Teaching and Learning Digitally;Supportive Aspects of Online Learning and Teaching -- What Does a Rapid Transition Teach Us?;Adapting Large Intro-level Chemistry Courses to Fully Remote or Hybrid Instruction;Personalized Support for Students Learning Chemistry Online -- The Development of a Prediction Model;A Framework for Learning to Teach Chemistry on a Digital Platform: The Case of Chemical Equilibrium;Learning with Digital Media About the Chemistry Behind the Recycling of Digital Hardware;Chemistry-based Information in Social Media in the Light of Scientific Media Literacy -- Teachers' Views and Classroom Implementation in Secondary Education;Digital Learning Platforms: Digital Platforms for Increasing Inclusion in Chemistry Education;Group Diversity and Innovative Thinking: Lessons Learned From a MOOC on Nanotechnology;Integrating Web-based Learning to Make Industrial and Everyday Life Chemistry Accessible to High School Chemistry Students;The Next Level in Inclusive Chemistry Education: A Model Approach Using a Multitouch Learning Book;Can YouTubers Provide Powerful Tools for Addressing Heterogeneity in the Classroom? An Analysis of Videos About the Periodic Table Using the TPACK Framework;A Formalized Conceptual Model-based Approach for Fostering and Assessing Students' Systems Thinking in Undergraduate Chemistry Education;Chemistry Teachers' Awareness of Sustainability Through Social Media: Cultural Differences;Using Visualization and Laboratory to Promote Learning in Science;Applications of Digital Technology in Chemical Education;Designing Virtual Chemistry Visualizations Featuring Environmental Dilemmas to Promote Equitable Knowledge Integration;Designing Tutorial Videos to Support Students' Learning of Reaction Mechanisms in Organic Chemistry;Digital Tools for Equitable in Person and Remote Chemistry Learning;Smartphone Applications as a Catalyst for Active Learning in Chemistry: Investigating the Ideal Gas Law;Theme Introduction: Digital Assessment;The Community of Inquiry Framework as a Guide to Implement Inclusive Collaborative Two-stage Exams in Chemistry;Digital Formative Assessments for Learning;Online Assignments: Pre- and In-service Chemistry Teachers' Knowledge, Perceptions and Reflections;'I Felt Not So Alone': the Impact of Muddiest Point Activities on Student Learning Outcomes Through Top Hat Technology;Embedding Feedback in Digital Learning Environments to Promote Learners' Thinking About Their Thinking in Chemistry;Introduction to Building Communities of Learners and Educators;Bringing Back Learning Communities in the XXI Century;Supporting Chemistry Teachers in Emergency Remote Teaching -- The Role of Professional Learning Communities (PLCs);Strategies for Teaching Chemistry Online: A Community of Educators for the COVID-19 Pandemic and Beyond. Chemistry Computer-assisted instruction. http://id.loc.gov/authorities/subjects/sh85022993 Chemistry Study and teaching. http://id.loc.gov/authorities/subjects/sh85023008 Chimie Enseignement assisté par ordinateur. Chimie Étude et enseignement. Chemistry Computer-assisted instruction fast Chemistry Study and teaching fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85022993 http://id.loc.gov/authorities/subjects/sh85023008
title	Digital learning and teaching in chemistry /
title_auth	Digital learning and teaching in chemistry /
title_exact_search	Digital learning and teaching in chemistry /
title_full	Digital learning and teaching in chemistry / edited by Yehudit Dori, Courtney Ngai and Gabriela Szteinberg.
title_fullStr	Digital learning and teaching in chemistry / edited by Yehudit Dori, Courtney Ngai and Gabriela Szteinberg.
title_full_unstemmed	Digital learning and teaching in chemistry / edited by Yehudit Dori, Courtney Ngai and Gabriela Szteinberg.
title_short	Digital learning and teaching in chemistry /
title_sort	digital learning and teaching in chemistry
topic	Chemistry Computer-assisted instruction. http://id.loc.gov/authorities/subjects/sh85022993 Chemistry Study and teaching. http://id.loc.gov/authorities/subjects/sh85023008 Chimie Enseignement assisté par ordinateur. Chimie Étude et enseignement. Chemistry Computer-assisted instruction fast Chemistry Study and teaching fast
topic_facet	Chemistry Computer-assisted instruction. Chemistry Study and teaching. Chimie Enseignement assisté par ordinateur. Chimie Étude et enseignement. Chemistry Computer-assisted instruction Chemistry Study and teaching
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