Practical Work in Science Education in the Digital Era
portes grátis
Practical Work in Science Education in the Digital Era
Challenges and Opportunities
Dourado, Luis; Leite, Laurinda; Carvalho, Luisa; Morgado, Sofia; Afonso, Ana S.
Springer Nature Switzerland AG
04/2026
427
Dura
Inglês
9783032137876
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Part 1. Overview of Practical Work in Science Education.- 1. A Critical Look at the History of School Practical Work Over the Past Half a Century.- 2. Practical Work in Science Education: Foundations, Challenges, and Future Perspectives.- 3. Practical Science, Artificial Intelligence and Science Education.- 4. Maker Education and Makerspaces: Challenges and Opportunities for STEAM Education.- 5. Practical Work to Teach the Nature of Science to Science Teachers.- Part 2. Physical Practical Work in Science Education.- 6. Physical Laboratory-Based Practical Activities in School: A Literature Review Centred on Students.- 7. Inquiry-based Practical Work in Science Education.- 8. Engaging in the Practical Work of Science with Multiple Models.- 9. The Rain Gauge as a Limit-Act: Practical Work from the Freirean Perspective.- 10. Field-Based Practical Activities for School Science Learning: A Literature Review Centred on Students.- 11. Problem-Based Practical Work in Real Contexts: Cultivating Scientific Literacy for Social Change and Youth Protagonism.- 12. Science Museums in Support of School Laboratory Work.- Part 3. Digital Practical Work in Science Education.- 13. Enhancing Practical Work Through 3D Animated Virtual Labs: Opportunities and Challenges in Biology Education.- 14. Simulations-Based Practical Work.- 15. Modeling in the Digital Era: An Overview of Practical Studies on Computerized Model-Based Science Instruction.- 16. Augmented Reality in Education: Didactic and Philosophical Implications for Science Education.- 17. Immersive Virtual Reality for Science Practicals: Opportunities, Challenges, and Pedagogical Considerations.- 18. A Systematic Review of Research on the Integration of Real and Virtual Laboratories for Inquiry-Based Learning.- Part 4. Inclusion Through Practical Work.- 19. Promoting Inclusion in Science Education Through Low-Cost Practical Work.- 20. Designing Sustainable and Inclusive Physics Laboratories for the Digital Age. 21. Inclusive STEM Education for Students Who Are Blind or Low Vision: From the Classroom into the Science Laboratory. 22. Unlocking Young Children's Potential with STEAM: Special Online Programme for Gifted Young Children. 23. Potential and Limitations of Virtual Field Trips in Promoting Nature-Based Learning and Inclusion.- Part 5. Teaching Practice Issues in Practical Work Contexts.- 24. Towards More Research-Informed Practice in the Use of Practical Work in Science Education.- 25. Teachers' Challenges and Proposed Strategies in Educational Robotics and STEM: A Review and Content Analysis.- 26. Assessing Practical Work in Laboratory Settings.- Part 6. Ethical and Safety Issues in Practical Work.- 27. Ethical Issues in the Science Laboratory.- 28. Ethics Issues in Outdoors Science Education in an Increasingly Digital Age.- 29. Ethical Issues with Extended Reality Technology in Schools and How Teachers Can Respond to These in STEM Education.- 30. Redefining School Laboratory Safety in the Digital Age.- 31. Safety Issues in STEM Virtual Learning Environments.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Open Access;Practical work in science education;Approaches to practical work in science education;Digital practical work in science education;Inclusion through practical work;Low cost materials based practical work;Teacher education for practical work based-teaching;Ethical issues in practical work;Safety issues in practical work;Learning assessment in practical work;Laboratory based practical work;Field-based practical work;Maker based-practical work;Science centres based practical work;Teaching and learning Biology ;Teaching and learning Chemistry ;Teaching and learning Geology ;Teaching and learning Physics
Part 1. Overview of Practical Work in Science Education.- 1. A Critical Look at the History of School Practical Work Over the Past Half a Century.- 2. Practical Work in Science Education: Foundations, Challenges, and Future Perspectives.- 3. Practical Science, Artificial Intelligence and Science Education.- 4. Maker Education and Makerspaces: Challenges and Opportunities for STEAM Education.- 5. Practical Work to Teach the Nature of Science to Science Teachers.- Part 2. Physical Practical Work in Science Education.- 6. Physical Laboratory-Based Practical Activities in School: A Literature Review Centred on Students.- 7. Inquiry-based Practical Work in Science Education.- 8. Engaging in the Practical Work of Science with Multiple Models.- 9. The Rain Gauge as a Limit-Act: Practical Work from the Freirean Perspective.- 10. Field-Based Practical Activities for School Science Learning: A Literature Review Centred on Students.- 11. Problem-Based Practical Work in Real Contexts: Cultivating Scientific Literacy for Social Change and Youth Protagonism.- 12. Science Museums in Support of School Laboratory Work.- Part 3. Digital Practical Work in Science Education.- 13. Enhancing Practical Work Through 3D Animated Virtual Labs: Opportunities and Challenges in Biology Education.- 14. Simulations-Based Practical Work.- 15. Modeling in the Digital Era: An Overview of Practical Studies on Computerized Model-Based Science Instruction.- 16. Augmented Reality in Education: Didactic and Philosophical Implications for Science Education.- 17. Immersive Virtual Reality for Science Practicals: Opportunities, Challenges, and Pedagogical Considerations.- 18. A Systematic Review of Research on the Integration of Real and Virtual Laboratories for Inquiry-Based Learning.- Part 4. Inclusion Through Practical Work.- 19. Promoting Inclusion in Science Education Through Low-Cost Practical Work.- 20. Designing Sustainable and Inclusive Physics Laboratories for the Digital Age. 21. Inclusive STEM Education for Students Who Are Blind or Low Vision: From the Classroom into the Science Laboratory. 22. Unlocking Young Children's Potential with STEAM: Special Online Programme for Gifted Young Children. 23. Potential and Limitations of Virtual Field Trips in Promoting Nature-Based Learning and Inclusion.- Part 5. Teaching Practice Issues in Practical Work Contexts.- 24. Towards More Research-Informed Practice in the Use of Practical Work in Science Education.- 25. Teachers' Challenges and Proposed Strategies in Educational Robotics and STEM: A Review and Content Analysis.- 26. Assessing Practical Work in Laboratory Settings.- Part 6. Ethical and Safety Issues in Practical Work.- 27. Ethical Issues in the Science Laboratory.- 28. Ethics Issues in Outdoors Science Education in an Increasingly Digital Age.- 29. Ethical Issues with Extended Reality Technology in Schools and How Teachers Can Respond to These in STEM Education.- 30. Redefining School Laboratory Safety in the Digital Age.- 31. Safety Issues in STEM Virtual Learning Environments.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Open Access;Practical work in science education;Approaches to practical work in science education;Digital practical work in science education;Inclusion through practical work;Low cost materials based practical work;Teacher education for practical work based-teaching;Ethical issues in practical work;Safety issues in practical work;Learning assessment in practical work;Laboratory based practical work;Field-based practical work;Maker based-practical work;Science centres based practical work;Teaching and learning Biology ;Teaching and learning Chemistry ;Teaching and learning Geology ;Teaching and learning Physics
