Verfügbarkeit: Online science learning

Online science learning: best practices and technologies

"This book reviews trends and efforts in web-based science instruction and evaluates contemporary philosophies and pedagogies of online science instruction. This title on an emergent and vital area of education clearly demonstrates how to enrich the academic character and quality of web-based s...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser:	Downing, Kevin F. (VerfasserIn), Holtz, Jennifer K. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Hershey PA [u.a.] Information Science Publ. 2008
Schlagworte:	Erziehung Naturwissenschaft Science > Study and teaching (Higher) Web-based instruction Education > Computer network resources Education, Higher > Computer-assisted instruction Education, Higher > Effect of technological innovations on Computerunterstützter Unterricht Naturwissenschaftliches Studium E-Learning
Online-Zugang:	Inhaltsverzeichnis
Zusammenfassung:	"This book reviews trends and efforts in web-based science instruction and evaluates contemporary philosophies and pedagogies of online science instruction. This title on an emergent and vital area of education clearly demonstrates how to enrich the academic character and quality of web-based science instruction"--Provided by publisher.
Beschreibung:	"This book reviews trends and efforts in web-based science instruction and evaluates contemporary philosophies and pedagogies of online science instruction. This title on an emergent and vital area of education clearly demonstrates how to enrich the academic character and quality of web-based science instruction"--Provided by publisher.
Beschreibung:	XVII, 353 S.
ISBN:	9781599049861 9781599049878

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Datensatz im Suchindex

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adam_text	Online Science Learning: Best Practices and Technologies Table of Contents Foreword ....................................................................................................................... 1X Preface ........................................................................................................................... X1 Section I: Science Education and Online Science Learning Chapter I Online Science: Its Role in Fostering Global Scientific Capital ...............................1 Building Global Science and Technology Capital ...............................................2 Valuing Science Education Globally ....................................................................3 Global Implications for Online Science Education ...........................................№ Conclusion ..........................................................................................................№ References .......................................................................................................... H Chapter II Controversies and Concurrence in Science Education ............................................14 The U.S. Failure in Science ................................................................................16 Additional Factors Influencing Science Education ............................................19 Other Considerations that Influence Online Learning Pedagogy. .....................21 Issues in Learning Science .................................................................................22 Learning Theories and Concepts .......................................................................22 Conclusion ..........................................................................................................27 References ..........................................................................................................27 Chapter III Virtaal School Science .,___________......................................................................30 U.S. Virtual Schools ....................................,......................................................31 Obstacles to Seamless K~I6 Science Instruction in the U.S. ..............................34 Enrichment at the Interface: Coordinated K-I6 Online Science Learning .......36 Online Professional Development for Science Teachers ...................................37 Selecting, Employing, and Designing Online Science Learning Objects for Schools .....................................................................................................38 Contemporary Approaches to Online Science Learning at Schools ..................40 Conclusion. .........................................................................................................43 References ..........................................................................................................44 Chapter IV Taking University Science Education Online ...........................................................49 Survey of Undergraduate Distance Science Education (SUDSE©) ..................50 Revisiting Current Practice ................................................................................54 Conclusion. .........................................................................................................55 References ..........................................................................................................56 Appendix: SUDSE Online Survey ......................................................................58 Chapter V The Role of Practical Work in Online Science .........................................................73 What is Practical Work? ....................................................................................74 Where Does Practical Work Take Place? ...........................................................76 A Brief History of Practical Work in the UK and U.S. .......................................76 Purpose and Value of Practical Work ................................................................79 Value of Practical Field Work ............................................................................80 Additional Purposes for Practical Work ............................................................80 Practical Work Controversies ............................................................................82 Designing Practical Work TasL· ........................................................................85 Epistemologica! and Procedural introduction to Practical Work ......................86 Exampie: Employing Situated Cognition and Scaffolding in Practical Work ...87 Conclusion. .........................................................................................................88 References ..........................................................................................................89 Appendix: Compilation of Learning Outcomes for Practical Work. ..................93 Chapter VI Knowledge Transfer and Collaboration Structures for Online Science ................98 Collaborative vs. Cooperative Online Learning ................................................99 Online Collaboration ......................................................................................./00 Collaborative Learning and Online Science ....................................................101 Stages and Models of Online Collaboration ....................................................101 Effective Approaches to Collaboration and Group Structures ........................104 Social Software for Online Science ..................................................................106 Role of the Instructor in Online Collaboration ................................................107 The Sage on the Stage Lives? ...........................................................................107 Е -Moderating................................................................................................... 108 Gesture and Silence in the Online Science Classroom ....................................108 Using Collaboratories to Enrich and Sustain Science Knowledge. .................109 Collaboration in Virtual Worlds to Support Science Learning ........................110 Live Online Classrooms ..................................................................................../// Laboratorv E-NotebooL· ..................................................................................112 Science Collaboration Miscellany ................................................................... ИЗ Evaluating Online Science Collaboration ....................................................... ИЗ Conclusion. ....................................................................................................... 4 References ........................................................................................................ 5 Section II: Online Science Instructional Strategies and Technologies Chapter VII Online Science: Contemporary Approaches to Practical Work ...........................121 Learning Objects ..............................................................................................122 Learning Objects Classification .......................................................................123 Learning Object Repositories ..........................................................................124 Multimedia ....................................................................................................... í 24 Streaming Digital Video in Online Science ......................................................125 Typologies f or Web-Enabled Science Laboratories .........................................126 Benefits of Simulations in Online Science Learning ........................................129 3-D Learning Objects as Simulated Specimens ...............................................129 Additional 3-D Learning Objects for Online Science Learning ......................132 3-D Virtual Worlds ...........................................................................................133 Caveats of Using Virtual Worlds ......................................................................135 Affordances of Virtual Science Environments ..................................................135 Examples of Online Virtual Science Learning Environments ..........................136 Educational Science Games .............................................................................137 Models for Online Learning Game Development ............................................137 Remote Experimentation ..................................................................................139 Remote Experimentation: Design Approaches and Considerations ................139 Examples of Remote Experiments ....................................................................141 Remote Experiment Affordances ......................................................................142 Hands-on Laboratory Approaches for Online Students ...................................143 Virtual Field Trips ............................................................................................145 Actual Field Study to Support Distance Education. .........................................147 Virtual Puzzles for Learning Science ...............................................................149 Hybrid or Blended Science Courses ................................................................150 Digital Libraries and Repositories for Science Education ..............................757 Conclusion. .......................................................................................................152 References ........................................................................................................755 Chapter VIII The Cutting Edge: Promising Technologies and Strategies for Online Science Education .....................................................................................................159 Emerging Learning Systems for Online Science Education .............................767 Remote and Virtual Experimentation to Support Student Research. ................163 Mobile Technologies for Online Science Education ........................................164 Using PDAs and ¡Pods® in Online Science ....................................................166 Mobile Learning Objects. ................................................................................./67 Advances in Visualization ................................................................................ jfâ Emerging 3-D Learning Environments ............................................................171 Haptic Design ...................................................................................................178 Virtual Instructors, Classmates, and Tutors .....................................................180 Virtual Science Museums and Science Centers ................................................184 Trends ...............................................................................................................186 Impact of Online Technological Innovation to the Science Professoriate .......186 Conclusions ......................................................................................................187 References ........................................................................................................187 Section III: Assessing Online Science Learning Chapter IX Assessing Science Competence Achieved at a Distance .........................................196 Assessment Standards and Science Assessment ...............................................197 Novice-to-Expert Knowledge ...........................................................................198 Aligning Content, Instruction, and Assessment. ...............................................¡99 Interpretive Assessment Online ........................................................................207 Online Science Assessment Cases ....................................................................204 Conclusions ......................................................................................................211 References ........................................................................................................212 Section IV: Disciplinary Examples in Online Science Courses Chapter X Online Mathematics and Physical Science (Mathematics, Astronomy, Chemistry, and Physics) .............................................216 Designing Online Math Learning Activities ....................................................217 On the Design of Physical Science Learning Activities ...................................218 Courses .............................................................................................................219 Simulations and Virtual Labs ...........................................................................224 Collaborations, Virtual Science Museums, and Digital Libraries ...................234 Trends and Conclusion .....................................................................................238 References ........................................................................................................239 Chapter XI Online Geoscience .....................................................................................................242 Courses .............................................................................................................243 Virtual Field Trips ............................................................................................246 Virtual Laboratories .........................................................................................250 Collaboration, Virtual Science Museums, and the Cyberinfrastructure ..........256 Collaboration ...................................................................................................257 Virtual Science Museums .................................................................................258 Cyberinfrastructure ..........................................................................................260 Trends and Conclusion .....................................................................................260 References ........................................................................................................262 Chapter XII Online Life Sciences ..................................................................................................265 Courses .............................................................................................................266 Virtual Field Work and Laboratories ...............................................................273 Online Resources ..............................................................................................285 Trends and Conclusion .....................................................................................287 References ........................................................................................................287 Section V: Best Practice Model for Online Science Learning Chapter XIII A Didactic Model for the Development of Effective Online Science Courses ......291 Considerations .................................................................................................293 Phase 1: Course Planning ...............................................................................293 Phase 2: Design ...............................................................................................298 Phase 3: Implementation ..................................................................................304 Phase 4: Course Assessment and Redesign .....................................................309 Conclusion ........................................................................................................310 Epilogue ...........................................................................................................312 References ........................................................................................................312 Appendix: Model Planning Documents ...........................................................317 About the Authors .....................................................................................................338 Index ..........................................................................................................................340
adam_txt	Online Science Learning: Best Practices and Technologies Table of Contents Foreword . 1X Preface . X1 Section I: Science Education and Online Science Learning Chapter I Online Science: Its Role in Fostering Global Scientific Capital .1 Building Global Science and Technology Capital .2 Valuing Science Education Globally .3 Global Implications for Online Science Education .№ Conclusion .№ References . H Chapter II Controversies and Concurrence in Science Education .14 The U.S. Failure in Science .16 Additional Factors Influencing Science Education .19 Other Considerations that Influence Online Learning Pedagogy. .21 Issues in Learning Science .22 Learning Theories and Concepts .22 Conclusion .27 References .27 Chapter III Virtaal School Science .,_.30 U.S. Virtual Schools .,.31 Obstacles to Seamless K~I6 Science Instruction in the U.S. .34 Enrichment at the Interface: Coordinated K-I6 Online Science Learning .36 Online Professional Development for Science Teachers .37 Selecting, Employing, and Designing Online Science Learning Objects for Schools .38 Contemporary Approaches to Online Science Learning at Schools .40 Conclusion. .43 References .44 Chapter IV Taking University Science Education Online .49 Survey of Undergraduate Distance Science Education (SUDSE©) .50 Revisiting Current Practice .54 Conclusion. .55 References .56 Appendix: SUDSE Online Survey .58 Chapter V The Role of Practical Work in Online Science .73 What is Practical Work? .74 Where Does Practical Work Take Place? .76 A Brief History of Practical Work in the UK and U.S. .76 Purpose and Value of Practical Work .79 Value of Practical Field Work .80 Additional Purposes for Practical Work .80 Practical Work Controversies .82 Designing Practical Work TasL· .85 Epistemologica! and Procedural introduction to Practical Work .86 Exampie: Employing Situated Cognition and Scaffolding in Practical Work .87 Conclusion. .88 References .89 Appendix: Compilation of Learning Outcomes for Practical Work. .93 Chapter VI Knowledge Transfer and Collaboration Structures for Online Science .98 Collaborative vs. Cooperative Online Learning .99 Online Collaboration ./00 Collaborative Learning and Online Science .101 Stages and Models of Online Collaboration .101 Effective Approaches to Collaboration and Group Structures .104 Social Software for Online Science .106 Role of the Instructor in Online Collaboration .107 The Sage on the Stage Lives? .107 Е -Moderating. 108 Gesture and Silence in the Online Science Classroom .108 Using Collaboratories to Enrich and Sustain Science Knowledge. .109 Collaboration in Virtual Worlds to Support Science Learning .110 Live Online Classrooms ./// Laboratorv E-NotebooL· .112 Science Collaboration Miscellany . ИЗ Evaluating Online Science Collaboration . ИЗ Conclusion. .''4 References .''5 Section II: Online Science Instructional Strategies and Technologies Chapter VII Online Science: Contemporary Approaches to Practical Work .121 Learning Objects .122 Learning Objects Classification .123 Learning Object Repositories .124 Multimedia . í 24 Streaming Digital Video in Online Science .125 Typologies f or Web-Enabled Science Laboratories .126 Benefits of Simulations in Online Science Learning .129 3-D Learning Objects as Simulated Specimens .129 Additional 3-D Learning Objects for Online Science Learning .132 3-D Virtual Worlds .133 Caveats of Using Virtual Worlds .135 Affordances of Virtual Science Environments .135 Examples of Online Virtual Science Learning Environments .136 Educational Science Games .137 Models for Online Learning Game Development .137 Remote Experimentation .139 Remote Experimentation: Design Approaches and Considerations .139 Examples of Remote Experiments .141 Remote Experiment Affordances .142 Hands-on Laboratory Approaches for Online Students .143 Virtual Field Trips .145 Actual Field Study to Support Distance Education. .147 Virtual Puzzles for Learning Science .149 Hybrid or Blended Science Courses .150 Digital Libraries and Repositories for Science Education .757 Conclusion. .152 References .755 Chapter VIII The Cutting Edge: Promising Technologies and Strategies for Online Science Education .159 Emerging Learning Systems for Online Science Education .767 Remote and Virtual Experimentation to Support Student Research. .163 Mobile Technologies for Online Science Education .164 Using PDAs and ¡Pods® in Online Science .166 Mobile Learning Objects. ./67 Advances in Visualization . jfâ Emerging 3-D Learning Environments .171 Haptic Design .178 Virtual Instructors, Classmates, and Tutors .180 Virtual Science Museums and Science Centers .184 Trends .186 Impact of Online Technological Innovation to the Science Professoriate .186 Conclusions .187 References .187 Section III: Assessing Online Science Learning Chapter IX Assessing Science Competence Achieved at a Distance .196 Assessment Standards and Science Assessment .197 Novice-to-Expert Knowledge .198 Aligning Content, Instruction, and Assessment. .¡99 Interpretive Assessment Online .207 Online Science Assessment Cases .204 Conclusions .211 References .212 Section IV: Disciplinary Examples in Online Science Courses Chapter X Online Mathematics and Physical Science (Mathematics, Astronomy, Chemistry, and Physics) .216 Designing Online Math Learning Activities .217 On the Design of Physical Science Learning Activities .218 Courses .219 Simulations and Virtual Labs .224 Collaborations, Virtual Science Museums, and Digital Libraries .234 Trends and Conclusion .238 References .239 Chapter XI Online Geoscience .242 Courses .243 Virtual Field Trips .246 Virtual Laboratories .250 Collaboration, Virtual Science Museums, and the Cyberinfrastructure .256 Collaboration .257 Virtual Science Museums .258 Cyberinfrastructure .260 Trends and Conclusion .260 References .262 Chapter XII Online Life Sciences .265 Courses .266 Virtual Field Work and Laboratories .273 Online Resources .285 Trends and Conclusion .287 References .287 Section V: Best Practice Model for Online Science Learning Chapter XIII A Didactic Model for the Development of Effective Online Science Courses .291 Considerations .293 Phase 1: Course Planning .293 Phase 2: Design .298 Phase 3: Implementation .304 Phase 4: Course Assessment and Redesign .309 Conclusion .310 Epilogue .312 References .312 Appendix: Model Planning Documents .317 About the Authors .338 Index .340
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spellingShingle	Downing, Kevin F. Holtz, Jennifer K. Online science learning best practices and technologies Erziehung Naturwissenschaft Science Study and teaching (Higher) Web-based instruction Education Computer network resources Education, Higher Computer-assisted instruction Education, Higher Effect of technological innovations on Computerunterstützter Unterricht (DE-588)4070087-2 gnd Naturwissenschaftliches Studium (DE-588)4171340-0 gnd E-Learning (DE-588)4727098-6 gnd
subject_GND	(DE-588)4070087-2 (DE-588)4171340-0 (DE-588)4727098-6
title	Online science learning best practices and technologies
title_auth	Online science learning best practices and technologies
title_exact_search	Online science learning best practices and technologies
title_exact_search_txtP	Online science learning best practices and technologies
title_full	Online science learning best practices and technologies Kevin F. Downing and Jennifer K. Holtz
title_fullStr	Online science learning best practices and technologies Kevin F. Downing and Jennifer K. Holtz
title_full_unstemmed	Online science learning best practices and technologies Kevin F. Downing and Jennifer K. Holtz
title_short	Online science learning
title_sort	online science learning best practices and technologies
title_sub	best practices and technologies
topic	Erziehung Naturwissenschaft Science Study and teaching (Higher) Web-based instruction Education Computer network resources Education, Higher Computer-assisted instruction Education, Higher Effect of technological innovations on Computerunterstützter Unterricht (DE-588)4070087-2 gnd Naturwissenschaftliches Studium (DE-588)4171340-0 gnd E-Learning (DE-588)4727098-6 gnd
topic_facet	Erziehung Naturwissenschaft Science Study and teaching (Higher) Web-based instruction Education Computer network resources Education, Higher Computer-assisted instruction Education, Higher Effect of technological innovations on Computerunterstützter Unterricht Naturwissenschaftliches Studium E-Learning
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016440549&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT downingkevinf onlinesciencelearningbestpracticesandtechnologies AT holtzjenniferk onlinesciencelearningbestpracticesandtechnologies

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