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| augmented reality science education: Augmented Reality in Education Vladimir Geroimenko, 2020-05-26 This is the first comprehensive research monograph devoted to the use of augmented reality in education. It is written by a team of 58 world-leading researchers, practitioners and artists from 15 countries, pioneering in employing augmented reality as a new teaching and learning technology and tool. The authors explore the state of the art in educational augmented reality and its usage in a large variety of particular areas, such as medical education and training, English language education, chemistry learning, environmental and special education, dental training, mining engineering teaching, historical and fine art education. Augmented Reality in Education: A New Technology for Teaching and Learning is essential reading not only for educators of all types and levels, educational researchers and technology developers, but also for students (both graduates and undergraduates) and anyone who is interested in the educational use of emerging augmented reality technology. |
| augmented reality science education: Designing, Deploying, and Evaluating Virtual and Augmented Reality in Education Akcayir, Gokce, Demmans Epp, Carrie, 2020-10-23 Augmented reality (AR) and virtual reality (VR) provide flexibility in education and have become widely used for the promotion of multimedia learning. This use coincides with mobile devices becoming prevalent, VR devices becoming more affordable, and the creation of user-friendly software that allows the development of AR/VR applications by non-experts. However, because the integration of AR and VR into education is a fairly new practice that is only in its initial stage, these processes and outcomes need to be improved. Designing, Deploying, and Evaluating Virtual and Augmented Reality in Education is an essential research book that presents current practices and procedures from different technology-implementation stages (design, deployment, and evaluation) to help educators use AR/VR applications in their own teaching practices. The book provides comprehensive information on AR and VR applications in different educational settings from various perspectives including but not limited to mobile learning, formal/informal learning, and integration strategies with practical and/or theoretical implications. Barriers and challenges to their implementation that are currently faced by educators are also addressed. This book is ideal for academicians, instructors, curriculum designers, policymakers, instructional designers, researchers, education professionals, practitioners, and students. |
| augmented reality science education: Implementing Augmented Reality Into Immersive Virtual Learning Environments Russell, Donna, 2020-12-18 The potential to integrate augmented reality into educational settings has led to the development of myriad programs for implementing these transformative technologies into education. However, the transformative learning processes possible for learners can best be developed through integration in immersive virtual learning environments. The integration of augmented reality (AR) technologies into education involves matching the potential of AR with the most effective instructional model for immersing learners in the learning process. With current research focused heavily on blended or online learning, augmented reality fits right into the new technologies and trends that are being developed and utilized on a consistent basis. There is a need for research that provides detailed curriculum guides, templates for designing virtual worlds, evaluation processes, and immersive learning procedures that can be utilized to provide the best educational environment for student success. Implementing Augmented Reality Into Immersive Virtual Learning Environments provides current research for the integration of transformative new technologies into multiple educational settings. Examining the why, what, and how of integrating augmented reality into immersive virtual learning technologies, this book covers various educational settings, such as nursing education, sports coaching, language education, and more. While highlighting the benefits for virtual reality, its role in remote learning, the logistics of simulation, and branches of it such as gamification, this book is ideally intended for teachers, school administrators, teacher educators, practitioners, IT specialists, educational software developers, researchers, academicians, and students interested in integrating augmented reality in educational programs. |
| augmented reality science education: State of the Art Virtual Reality and Augmented Reality Knowhow Nawaz Mohamudally, 2018-05-23 State-of-the-Art Virtual Reality and Augmented Reality Knowhow is a compilation of recent advancements in digital technologies embracing a wide arena of disciplines. Amazingly, this book presents less business cases of these emerging technologies, but rather showcases the scientific use of VR/AR in healthcare, building industry and education. VR and AR are known to be resource intensive, namely, in terms of hardware and wearables - this is covered in a chapter on head-mounted display (HMD). The research work presented in this book is of excellent standard presented in a very pragmatic way; readers will appreciate the depth and breadth of the methodologies and discussions about the findings. We hope it serves as a springboard for future research and development in VR/AR and stands as a lighthouse for the scientific community. |
| augmented reality science education: Virtual and Augmented Reality in Education, Art, and Museums Guazzaroni, Giuliana, Pillai, Anitha S., 2019-11-22 Due to the growing prevalence of artificial intelligence technologies, schools, museums, and art galleries will need to change traditional ways of working and conventional thought processes to fully embrace their potential. Integrating virtual and augmented reality technologies and wearable devices into these fields can promote higher engagement in an increasingly digital world. Virtual and Augmented Reality in Education, Art, and Museums is an essential research book that explores the strategic role and use of virtual and augmented reality in shaping visitor experiences at art galleries and museums and their ability to enhance education. Highlighting a range of topics such as online learning, digital heritage, and gaming, this book is ideal for museum directors, tour developers, educational software designers, 3D artists, designers, curators, preservationists, conservationists, education coordinators, academicians, researchers, and students. |
| augmented reality science education: Augmented Reality for Enhanced Learning Environments Reyes Ruiz, Gerardo, Hernández Hernández, Marisol, 2018-05-18 In an environment where some countries are coming out of the recession at different speeds and others remain in a gloomy economic environment, education plays a vital role in reducing the negative impact of the global economic problems. In this sense, new technologies help to generate human resources with a better quality of education. Augmented Reality for Enhanced Learning Environments provides emerging research on using new technologies to encourage education and improve learning quality through augmented reality. While highlighting issues such as global economic problems impacting schools and insufficient aid, this publication explores new technologies in emerging economies and effective means of knowledge and learning transfer. This book is a vital resource for teachers, students, and aid workers seeking current research on creating a new horizon in science and technology to strengthen the current system of learning. |
| augmented reality science education: Augmented Reality in Educational Settings , 2019-11-11 New digital technologies offer many exciting opportunities to educators who are looking to develop better teaching practices. When technologies are new, however, the potential for beneficial and effective implementations and applications is not yet fully recognized. This book is intended to provide teachers and researchers with a wide range of ideas from researchers working to integrate the new technology of Augmented Reality into educational settings and processes. It is hoped that the research and theory presented here can support both teachers and researchers in future work with this exciting new technology. Contributors are: Miriam Adamková, Gilles Aldon, Panayiota Anastasi, Ferdinando Arzarello, Martina Babinská, Robert Bohdal, Francisco Botana, Constadina Charalambous, Eva Csandova, Omer Deperlioglu, Monika Dillingerová, Christos Dimopoulos, Jiri Dostal, Jihad El-Sana, Michael N. Fried, Maria Fuchsová, Marianthi Grizioti, Tomas Hlava, Markus Hohenwarter, Kateřina Jančaříková, Konstantinos Katzis, Lilla Korenova, Utku Köse, Zoltán Kovács,Blanka Kožík Lehotayová, Maria Kožuchová, Chronis Kynigos, Ilona-Elefteryja Lasica, Zsolt Lavicza, Álvaro Martínez, Efstathios Mavrotheris, Katerina Mavrou, Maria Meletiou-Mavrotheris, Georgios Papaioannou, Miroslava Pirháčová Lapšanská, Stavros Pitsikalis, Corinne Raffin, Tomás Recio, Cristina Sabena, Florian Schacht, Eva Severini, Martina Siposova, Zacharoula Smyrnaiou, Nayia Stylianidou, Osama Swidan, Christos Tiniakos, Melanie Tomaschko, Renata Tothova, Christina Vasou, and Ibolya Veress-Bágyi. |
| augmented reality science education: Virtual Reality in Education: Breakthroughs in Research and Practice Management Association, Information Resources, 2019-04-01 Modern technology has infiltrated many facets of society, including educational environments. Through the use of virtual learning, educational systems can become more efficient at teaching the student population and break down cost and distance barriers to reach populations that traditionally could not afford a good education. Virtual Reality in Education: Breakthroughs in Research and Practice is an essential reference source on the uses of virtual reality in K-12 and higher education classrooms with a focus on pedagogical and instructional outcomes and strategies. Highlighting a range of pertinent topics such as immersive virtual learning environments, virtual laboratories, and distance education, this publication is an ideal reference source for pre-service and in-service teachers, school administrators, principles, higher education faculty, K-12 instructors, policymakers, and researchers interested in virtual reality incorporation in the classroom. |
| augmented reality science education: New Perspectives on Virtual and Augmented Reality Linda Daniela, 2020-05-31 New Perspectives on Virtual and Augmented Reality discusses the possibilities of using virtual and augmented reality in the role of innovative pedagogy, where there is an urgent need to find ways to teach and support learning in a transformed learning environment. Technology creates opportunities to learn differently and presents challenges for education. Virtual reality solutions can be exciting, create interest in learning, make learning more accessible and make learning faster. This book analyses the capabilities of virtual, augmented and mixed reality by providing ideas on how to make learning more effective, how existing VR/AR solutions can be used as learning tools and how a learning process can be structured. The virtual reality (VR) solutions can be used successfully for educational purposes as their use can contribute to the construction of knowledge and the development of metacognitive processes. They also contribute to inclusive education by providing access to knowledge that would not otherwise be available. This book will be of great interest to academics, researchers and post-graduate students in the field of educational technology. |
| augmented reality science education: ICTs and Innovation for Didactics of Social Sciences Delgado-Algarra, Emilio José, 2020-02-14 The advancement of technology in today’s world has led to the progression of several professional fields. This includes the classroom, as teachers have begun using new technological strategies to increase student involvement and motivation. ICT innovation including virtual reality and blended learning methods has changed the scope of classroom environments across the globe; however, significant research is lacking in this area. ICTs and Innovation for Didactics of Social Sciences is a fundamental reference focused on didactics of social sciences and ICTs including issues related to innovation, resources, and strategies for teachers that can link to the transformation of social sciences teaching and learning as well as societal transformation. While highlighting topics such as blended learning, augmented reality, and virtual classrooms, this book is ideally designed for researchers, administrators, educators, practitioners, and students interested in understanding current relevant ICT resources and innovative strategies for the didactic of social sciences and didactic possibilities in relation to concrete conceptual contents, resolution of problems, planning, decision making, development of social skills, attention, and motivation promoting a necessary technological literacy. |
| augmented reality science education: Multimedia and Sensory Input for Augmented, Mixed, and Virtual Reality Tyagi, Amit Kumar, 2021-01-08 Augmented and virtual reality (AR and VR) offer exciting opportunities for human computer interaction (HCI), the enhancement of places, and new business cases. Though VR is most popular for video games, especially among younger generations, AR and VR can also be used in applications that include military, medical, navigational, tourism, marketing, and maintenance uses. Research in these technologies along with 3D user interfaces has gained momentum in recent years and has solidified it as a staple technology for the foreseeable future. Multimedia and Sensory Input for Augmented, Mixed, and Virtual Reality includes a collection of business case studies covering a variety of topics related to AR, VR, and mixed reality (MR) including their use in possible applications. This book also touches on the diverse uses of AR and VR in many industries and discusses their importance, challenges, and opportunities. While discussing the use these technologies in sectors such as education, healthcare, and computer science, this book is ideal for computer scientists, engineers, practitioners, stakeholders, researchers, academicians, and students who are interested in the latest research on augmented, mixed, and virtual reality. |
| augmented reality science education: Handbook of Research on Innovations in Non-Traditional Educational Practices Keengwe, Jared, 2020-12-11 While many school districts and institutions of higher education still cling to the traditional agrarian school year with a factory model delivery of education and Carnegie units based on seat time when most people are no longer farmers, factory workers, or reliant on learning in a classroom, there are bursts of promising practices that buck the norm by questioning the educational value of these traditions. Though researchers have investigated the potential of students learning in their own homes via personalized instruction delivered by computers rather than attending traditional institutions, the status quo in education has remained stubbornly resistant to change. Mixed-reality simulations, year-round schooling, grouping students by competencies instead of age, and game-based teaching are just a few of the educational innovations that seek to maximize learning by recognizing that innovation is essential for successfully teaching students in the modern era. The Handbook of Research on Innovations in Non-Traditional Educational Practices is a comprehensive reference source that examines various educational innovations, how they have developed workarounds to navigate traditional systems, and their potential to radically transform teaching and learning. With each chapter highlighting a different educational innovation such as experiential learning, game-based learning, online learning, and inquiry-based learning and their applications in all levels of education, this book explores the issues and challenges these educational innovations face as well as their impact. It is intended for academicians, professionals, administrators, and researchers in education and specifically benefits academic deans, vice presidents of academic affairs, graduate students, faculty technology leaders, directors of teaching and learning centers, curriculum and instructional designers, policymakers, principals and superintendents, and teachers interested in educational change. |
| augmented reality science education: Emerging Tools and Applications of Virtual Reality in Education Choi, Dong Hwa, 2016-01-18 Virtual reality is the next frontier of communication. As technology exponentially evolves, so do the ways in which humans interact and depend upon it. It only follows that to educate and stimulate the next generation of industry leaders, one must use the most innovative tools available. By coupling education with the most immersive technology available, teachers may inspire students in exciting new ways. Emerging Tools and Applications of Virtual Reality in Education explores the potential and practical uses of virtual reality in classrooms with a focus on pedagogical and instructional outcomes and strategies. This title features current experiments in the use of augmented reality in teaching and highlights the effects it had on students. The authors also illustrate the use of technology in teaching the humanities, as students well-rounded in the fields of technology and communication are covetable in the workforce. This book will inspire educators, administrators, librarians, students of education, and virtual reality software developers to push the limits of their craft. |
| augmented reality science education: The Impact of the 4th Industrial Revolution on Engineering Education Michael E. Auer, Hanno Hortsch, Panarit Sethakul, 2020-03-17 This book gathers papers presented at the 22nd International Conference on Interactive Collaborative Learning (ICL2019), which was held in Bangkok, Thailand, from 25 to 27 September 2019. Covering various fields of interactive and collaborative learning, new learning models and applications, research in engineering pedagogy and project-based learning, the contributions focus on innovative ways in which higher education can respond to the real-world challenges related to the current transformation in the development of education. Since it was established, in 1998, the ICL conference has been devoted to new approaches in learning with a focus on collaborative learning. Today, it is a forum for sharing trends and research findings as well as presenting practical experiences in learning and engineering pedagogy. The book appeals to policymakers, academics, educators, researchers in pedagogy and learning theory, school teachers, and other professionals in the learning industry, and further and continuing education. |
| augmented reality science education: Active Learning in College Science Joel J. Mintzes, Emily M. Walter, 2020-02-23 This book explores evidence-based practice in college science teaching. It is grounded in disciplinary education research by practicing scientists who have chosen to take Wieman’s (2014) challenge seriously, and to investigate claims about the efficacy of alternative strategies in college science teaching. In editing this book, we have chosen to showcase outstanding cases of exemplary practice supported by solid evidence, and to include practitioners who offer models of teaching and learning that meet the high standards of the scientific disciplines. Our intention is to let these distinguished scientists speak for themselves and to offer authentic guidance to those who seek models of excellence. Our primary audience consists of the thousands of dedicated faculty and graduate students who teach undergraduate science at community and technical colleges, 4-year liberal arts institutions, comprehensive regional campuses, and flagship research universities. In keeping with Wieman’s challenge, our primary focus has been on identifying classroom practices that encourage and support meaningful learning and conceptual understanding in the natural sciences. The content is structured as follows: after an Introduction based on Constructivist Learning Theory (Section I), the practices we explore are Eliciting Ideas and Encouraging Reflection (Section II); Using Clickers to Engage Students (Section III); Supporting Peer Interaction through Small Group Activities (Section IV); Restructuring Curriculum and Instruction (Section V); Rethinking the Physical Environment (Section VI); Enhancing Understanding with Technology (Section VII), and Assessing Understanding (Section VIII). The book’s final section (IX) is devoted to Professional Issues facing college and university faculty who choose to adopt active learning in their courses. The common feature underlying all of the strategies described in this book is their emphasis on actively engaging students who seek to make sense of natural objects and events. Many of the strategies we highlight emerge from a constructivist view of learning that has gained widespread acceptance in recent years. In this view, learners make sense of the world by forging connections between new ideas and those that are part of their existing knowledge base. For most students, that knowledge base is riddled with a host of naïve notions, misconceptions and alternative conceptions they have acquired throughout their lives. To a considerable extent, the job of the teacher is to coax out these ideas; to help students understand how their ideas differ from the scientifically accepted view; to assist as students restructure and reconcile their newly acquired knowledge; and to provide opportunities for students to evaluate what they have learned and apply it in novel circumstances. Clearly, this prescription demands far more than most college and university scientists have been prepared for. |
| augmented reality science education: Innovating with Augmented Reality P Kaliraj, Devi Thirupathi, 2021-12-15 Augmented Reality (AR) has many advantages that include increased engagement and interaction as well as enhanced innovation and responsiveness. AR technology has applications in almost all domains such as medical training, retail, repair and maintenance of complex equipment, interior design in architecture and construction, business logistics, tourism, and classroom education. Innovating with Augmented Reality: Applications in Education and Industry explains the concepts behind AR, explores some of its application areas, and gives an in-depth look at how this technology aligns with Education 4.0. Due to the rapid advancements in technology, future education systems must prepare students to work with the latest technologies by enabling them to learn virtually in augmented ways in varied platforms. By providing an illusion of physical objects, which takes the students to a new world of imagination, AR and Virtual Reality (VR) create virtual and interactive environments for better learning and understanding. AR applications in education are covered in four chapters of this book, including a chapter on how gamification can be made use of in the teaching and learning process. The book also covers other application areas of AR and VR. One such application area is the food and beverage industry with case studies on virtual 3D food, employee training, product–customer interaction, restaurant entertainment, restaurant tours, and product packaging. The application of AR in the healthcare sector, medical education, and related devices and software are examined in the book’s final chapter. The book also provides an overview of the game development software, Unity, a real-time development platform for 2D and 3D AR and VR, as well as the software tools and techniques used in developing AR-based apps. |
| augmented reality science education: Emerging Technologies of Augmented Reality: Interfaces and Design Haller, Michael, Billinghurst, Mark, Thomas, Bruce, 2006-11-30 This book provides a good grounding of the main concepts and terminology for Augmented Reality (AR), with an emphasis on practical AR techniques (from tracking-algorithms to design principles for AR interfaces). The targeted audience is computer-literate readers who wish to gain an initial understanding of this exciting and emerging technology--Provided by publisher. |
| augmented reality science education: Augmented Learning Eric Klopfer, 2008 New technology has brought with it new tools for learning, and research has shown that the educational potential of video games resonates with teachers and pupils alike. Klopfer here describes the largely untapped potential of mobile learning games to make a substantial impact on education. |
| augmented reality science education: Handbook of Research on Fostering Student Engagement With Instructional Technology in Higher Education Alqurashi, Emtinan, 2019-10-11 Student engagement relies on the students and their willingness to participate in the learning process and can be enhanced through the application of various technologies within learning environments. However, strategies for implementing these technologies need research and development to be implemented effectively. The Handbook of Research on Fostering Student Engagement With Instructional Technology in Higher Education is a comprehensive academic publication that focuses on the engagement of learners with academics in higher education and especially how this engagement can be fostered with the integration of new technologies. Featuring an array of topics such as gamification, digital literacy, and social networking, this book is ideal for instructors, educators, administrators, curriculum developers, instructional designers, IT consultants, educational software developers, researchers, academicians, and students. |
| augmented reality science education: Advances in Visual Informatics Halimah Badioze Zaman, Peter Robinson, Patrick Olivier, Timothy K. Shih, Sergio Velastin, 2013-10-12 This book constitutes the refereed proceedings of the Third International Conference on Advances in Visual Informatics, IVIC 2013, held in Selangor, Malaysia, in November 2013. The four keynotes and 69 papers presented were carefully reviewed and selected from various submissions. The papers focus on four tracks: computer visions and engineering; computer graphics and simulation; virtual and augmented reality; and visualization and social computing. |
| augmented reality science education: Emerging Advancements for Virtual and Augmented Reality in Healthcare Coelho, Luis Pinto, Queirós, Ricardo, Reis, Sara Seabra, 2021-12-10 Within the last few years, devices that are increasingly capable of offering an immersive experience close to reality have emerged. As devices decrease in size, the interest and application possibilities for them increase. In the healthcare sector, there is an enormous potential for virtual reality development, as this technology allows, on the one hand, the execution of operations or processes at a distance, decoupling realities; and on the other hand, it offers the possibility of simulation for training purposes, whenever there are contexts of risk to the patient or to the health professional. However, virtual reality devices and immersion in virtual environments still requires some improvement as complaints such as headaches and nausea are still common among users, and so continuous research and development is critical to progress the technology. Emerging Advancements for Virtual and Augmented Reality in Healthcare synthesizes the trends, best practices, methodologies, languages, and tools used to implement virtual reality and create a positive user experience while also discussing how to implement virtual reality into day-to-day work with a focus on healthcare professionals and related areas. The application possibilities and their impact are transversal to all areas of health and fields such as education, training, surgery, pain management, physical rehabilitation, stroke rehabilitation, phobia therapy, and telemedicine. Covering topics such as mental health treatment and virtual simulations, it is ideal for medical professionals, engineers, computer scientists, researchers, practitioners, managers, academicians, teachers, and students. |
| augmented reality science education: Research in Education: Evidence-Based Inquiry James H. McMillan, Sally Schumacher, 2013-08-28 The full text downloaded to your computer With eBooks you can: search for key concepts, words and phrases make highlights and notes as you study share your notes with friends eBooks are downloaded to your computer and accessible either offline through the Bookshelf (available as a free download), available online and also via the iPad and Android apps. Upon purchase, you'll gain instant access to this eBook. Time limit The eBooks products do not have an expiry date. You will continue to access your digital ebook products whilst you have your Bookshelf installed. This substantially revised text provides a comprehensive, highly accessible, and student friendly introduction to the principles, concepts, and methods currently used in educational research. This text provides a balanced combination of quantitative and qualitative methods and enables students to master skills in reading, understanding, critiquing, and conducting research. Many examples and article excerpts are used throughout the text to demonstrate and highlight best practices in educational research. Evidence-based inquiry is emphasised in two ways: (1) Introductory chapters focus on the added importance of data driven decision-making, (2) Methodological chapters provide explicit guidelines for conducting empirical studies. |
| augmented reality science education: Ahead of the Curve Douglas B. Reeves, 2009-11-01 This anthology brings the ideas and recommendations of many of the world’s education leaders into one resource that illustrates the many perspectives on effective assessment design and implementation. From involving students in the assessment process to ensuring accuracy and applying assessments to English learners and students with special needs, you will find compelling insights and proven strategies. |
| augmented reality science education: Computer Applications for Database, Education and Ubiquitous Computing Tai-hoon Kim, Jianhua Ma, Wai-chi Fang, Yanchun Zhang, Alfredo Cuzzocrea, 2012-11-27 This volume constitutes the refereed proceedings of the International Conferences, EL, DTA and UNESST 2012, held as part of the Future Generation Information Technology Conference, FGIT 2012, Kangwondo, Korea, in December 2012. The papers presented were carefully reviewed and selected from numerous submissions and focus on the various aspects of education and learning, database theory and application and u- and e-service, science and technology. |
| augmented reality science education: Proceedings of the 24th Australian Computer-Human Interaction Conference Vivienne Farrell, 2012-11-26 OzCHI '12:The 24th Australian Computer-Human Interaction Conference Nov 26, 2012-Nov 30, 2012 Melbourne, Australia. You can view more information about this proceeding and all of ACM�s other published conference proceedings from the ACM Digital Library: http://www.acm.org/dl. |
| augmented reality science education: Visual Informatics: Sustaining Research and Innovations Halimah Badioze Zaman, Peter Robinson, Maria Petrou, Patrick Olivier, Timothy K. Shih, Sergio Velastin, Ingela Nyström, 2011-10-28 The two-volume set LNCS 7066 and LNCS 7067 constitutes the proceedings of the Second International Visual Informatics Conference, IVIC 2011, held in Selangor, Malaysia, during November 9-11, 2011. The 71 revised papers presented were carefully reviewed and selected for inclusion in these proceedings. They are organized in topical sections named computer vision and simulation; virtual image processing and engineering; visual computing; and visualisation and social computing. In addition the first volume contains two keynote speeches in full paper length, and one keynote abstract. |
| augmented reality science education: Improving K-12 STEM Education Outcomes through Technological Integration Urban, Michael J., 2015-11-12 The application of technology in classroom settings has equipped educators with innovative tools and techniques for effective teaching practice. Integrating digital technologies at the elementary and secondary levels helps to enrich the students’ learning experience and maximize competency in the areas of science, technology, engineering, and mathematics. Improving K-12 STEM Education Outcomes through Technological Integration focuses on current research surrounding the effectiveness, performance, and benefits of incorporating various technological tools within science, technology, engineering, and mathematics classrooms. Focusing on evidence-based approaches and current educational innovations, this book is an essential reference source for teachers, teacher educators, and professionals interested in how emerging technologies are benefiting teaching and/or learning efficacy. |
| augmented reality science education: Learning Transported Jaime Donally, 2022-08-30 Get the practical insights and classroom examples you need to incorporate immersive technology into curriculum and create engaging, effective learning experiences for students. Teachers nationwide are adopting immersive technology – devices and software that provide augmented, virtual and mixed reality experiences – to enable students to go on virtual field trips, manipulate 3D objects and augment the world around them. Immersive technology resources can be far less costly than many believe, but there are issues school districts should resolve before making purchases and implementing this technology. Learning Transported helps educators plan and establish goals so that their investment in immersive technology benefits the greatest number of students. The book includes: • Definitions and examples of augmented, virtual and mixed reality. • Comparison of devices and platforms, and tips for selecting the best one. • Lesson plans mapped to standards and content areas. • Ideas for using immersive technology tools in the classroom. Immersive technology has great potential to transform learning and create engaging experiences for students. This book helps educators consider the most important factors in bringing this approach into the classroom: that the instruction addresses student outcomes and standards, and that the mechanism for delivering this learning is safe, affordable and suitable for the situation. The companion jump start guide based on this book is Immerse Yourself: Create Engaging AR/VR Experiences for All Learners. |
| augmented reality science education: Handbook of Research on Science Education Sandra K. Abell, Ken Appleton, Deborah Hanuscin, 2013-03-07 This state-of-the art research Handbook provides a comprehensive, coherent, current synthesis of the empirical and theoretical research concerning teaching and learning in science and lays down a foundation upon which future research can be built. The contributors, all leading experts in their research areas, represent the international and gender diversity that exists in the science education research community. As a whole, the Handbook of Research on Science Education demonstrates that science education is alive and well and illustrates its vitality. It is an essential resource for the entire science education community, including veteran and emerging researchers, university faculty, graduate students, practitioners in the schools, and science education professionals outside of universities. The National Association for Research in Science Teaching (NARST) endorses the Handbook of Research on Science Education as an important and valuable synthesis of the current knowledge in the field of science education by leading individuals in the field. For more information on NARST, please visit: http://www.narst.org/. |
| augmented reality science education: Learning and Instruction Richard E. Mayer, 2008 How do people learn? How can instruction promote learning? Learning and Instruction, second edition, thoroughly and succinctly answers these two fundamental educational psychology questions. The author focuses on the big ideas, preferring that students understand a few exemplary ideas deeply, rather than numerous ideas superficially. The book is research-based and painstakingly shows how specific instructional implications follow from research and theory. Coverage is organized around the two sides of the educational coin, learning in subject areas and instructional methods, that foster meaningful learning. The text uses clear definitions, concrete examples, active learning tasks and a conversational writing style that easily engages readers by addressing them directly. |
| augmented reality science education: The Art of Game Design Jesse Schell, 2008-08-04 Anyone can master the fundamentals of game design - no technological expertise is necessary. The Art of Game Design: A Book of Lenses shows that the same basic principles of psychology that work for board games, card games and athletic games also are the keys to making top-quality videogames. Good game design happens when you view your game from many different perspectives, or lenses. While touring through the unusual territory that is game design, this book gives the reader one hundred of these lenses - one hundred sets of insightful questions to ask yourself that will help make your game better. These lenses are gathered from fields as diverse as psychology, architecture, music, visual design, film, software engineering, theme park design, mathematics, writing, puzzle design, and anthropology. Anyone who reads this book will be inspired to become a better game designer - and will understand how to do it. |
| augmented reality science education: Reality Bytes Jesse Lubinsky, Christine Lion-Bailey, Micah Shippee, 2020-01-14 Transform teaching and learning with AR and VR in your classroom. We're at the dawn of an incredible transformation in education. Augmented reality and virtual reality--technologies that were once the province of science fiction and fantasy--are faster, better, and more affordable than ever. These tools have the potential to not only inspire students but to redefine how we teach and collaborate. But widespread adoption of AR and VR in K-12 classrooms requires taking risks, investing money and time, and training educators. Reality Bytes makes the case for taking this leap by showing how educators are using these amazing technologies, and it provides a powerful framework to help anyone, in any school, join them. The innovative educators profiled are already designing learning experiences using AR and VR that supercharge student motivation, encourage creativity, and make otherwise impossible educational adventures accessible to all. You can do the same, using easy-to-implement resources that will revolutionize how you approach instruction. Equip your students with the skills they'll need in the future--today. Reality Bytes opens the doors to tools for meeting every student no matter where they are. This book outlines the power that AR and VR have in building empathy and growing critical worldviews and perspectives. Christine, Jesse, and Micah cast an exciting vision for the future of education! --Ken Shelton, educational strategist, equity and inclusion consultant Creating engaging lessons that successfully integrate technology can be challenging. Reality Bytes is here to help with tons of images, classroom stories, and ideas that will help you create student-centered lessons that allow your students to experience content in a whole new way. No matter the grade level, there is something for everyone in this wonderfully immersive book. --Alice Keeler, teacher, edtech expert, Google Certified Innovator While you won't see Winona Ryder's name on the cover of this book, you will find some star power in it--the power to create star learners in our classrooms using cutting-edge tools! Reality Bytes will you give you the tools, the pedagogy, and a practical framework to bring the new reality of learning into your classroom. --Kasey Bell, author of Shake Up Learning: Practical Ideas to Move Learning from Static to Dynamic |
| augmented reality science education: Handbook of Research on Equity in Computer Science in P-16 Education Keengwe, Jared, Tran, Yune, 2020-11-13 The growing trend for high-quality computer science in school curricula has drawn recent attention in classrooms. With an increasingly information-based and global society, computer science education coupled with computational thinking has become an integral part of an experience for all students, given that these foundational concepts and skills intersect cross-disciplinarily with a set of mental competencies that are relevant in their daily lives and work. While many agree that these concepts should be taught in schools, there are systematic inequities that exist to prevent students from accessing related computer science skills. The Handbook of Research on Equity in Computer Science in P-16 Education is a comprehensive reference book that highlights relevant issues, perspectives, and challenges in P-16 environments that relate to the inequities that students face in accessing computer science or computational thinking and examines methods for challenging these inequities in hopes of allowing all students equal opportunities for learning these skills. Additionally, it explores the challenges and policies that are created to limit access and thus reinforce systems of power and privilege. The chapters highlight issues, perspectives, and challenges faced in P-16 environments that include gender and racial imbalances, population of growing computer science teachers who are predominantly white and male, teacher preparation or lack of faculty expertise, professional development programs, and more. It is intended for teacher educators, K-12 teachers, high school counselors, college faculty in the computer science department, school administrators, curriculum and instructional designers, directors of teaching and learning centers, policymakers, researchers, and students. |
| augmented reality science education: Surrounded by Science National Research Council, Division of Behavioral and Social Sciences and Education, Center for Education, Board on Science Education, 2010-04-03 Practitioners in informal science settings-museums, after-school programs, science and technology centers, media enterprises, libraries, aquariums, zoos, and botanical gardens-are interested in finding out what learning looks like, how to measure it, and what they can do to ensure that people of all ages, from different backgrounds and cultures, have a positive learning experience. Surrounded by Science: Learning Science in Informal Environments, is designed to make that task easier. Based on the National Research Council study, Learning Science in Informal Environments: People, Places, and Pursuits, this book is a tool that provides case studies, illustrative examples, and probing questions for practitioners. In short, this book makes valuable research accessible to those working in informal science: educators, museum professionals, university faculty, youth leaders, media specialists, publishers, broadcast journalists, and many others. |
| augmented reality science education: Applying the Science of Learning Richard E. Mayer, 2011 This text explores the scientific relationship between learning, instruction, and assessment with a concise and bold approach. This text explores the science of learning, including the essentials of evaluating instruction, the research findings regarding the science of learning, and the possible prescriptions of that research. Written for both preservice and inservice educators who wish to better understand how and why students learn. |
| augmented reality science education: Annual Review of Cybertherapy and Telemedicine B. K. Wiederhold, Giuseppe Riva, Sun-i Kim, 2010 This book offers support and encouragement to all those interested in the development of cybertherapy systems. It provides evidence to build confidence in their effectiveness for detecting, monitoring and evaluating a number of important conditions and identifies and addresses the main barriers to their further development. It is divided into four main sections: critical reviews, evaluation studies, original research and clinical observations, tackling this complex subject by means of a clearly sequenced structure. -- |
| augmented reality science education: Virtual and Augmented Reality Zeynep Tacgin, 2020-06 Mixed Reality has been part of our lives ever since we first started to dream of creative ways to comprehend information and concepts through actual and imaginative experiences. This book explores the latest research informing education design in virtual and augmented reality. By utilising numerous studies and examples, it describes the differences between perceived knowledge, usage area, technologies, and tools. It will help the reader gain a better understanding of the nature of virtual or augmented realities and their applications in theory and practice. |
| augmented reality science education: Virtual and Augmented Reality Information Resources Management Association, 2018 Virtual and augmented reality is the next frontier of technological innovation. As technology exponentially evolves, so do the ways in which humans interact and depend upon it. Virtual and Augmented Reality: Concepts, Methodologies, Tools, and Applications is a comprehensive reference source for the latest scholarly material on the trends, techniques, and uses of virtual and augmented reality in various fields, and examines the benefits and challenges of these developments. Highlighting a range of pertinent topics, such as human-computer interaction, digital self-identity, and virtual reconstruction, this multi-volume book is ideally designed for researchers, academics, professionals, theorists, students, and practitioners interested in emerging technology applications across the digital plane. |
| augmented reality science education: Emerging Tools and Applications of Virtual Reality in Education Dong Hwa Choi, Amber Dailey-Hebert, Judi Simmons Estes, 2016 Virtual reality is the next frontier of communication. As technology exponentially evolves, so do the ways in which humans interact and depend upon it. It only follows that to educate and stimulate the next generation of industry leaders, one must use the most innovative tools available. By coupling education with the most immersive technology available, teachers may inspire students in exciting new ways. Emerging Tools and Applications of Virtual Reality in Education explores the potential and practical uses of virtual reality in classrooms with a focus on pedagogical and instructional outcomes and strategies. This title features current experiments in the use of augmented reality in teaching and highlights the effects it had on students. The authors also illustrate the use of technology in teaching the humanities, as students well-rounded in the fields of technology and communication are covetable in the workforce. This book will inspire educators, administrators, librarians, students of education, and virtual reality software developers to push the limits of their craft. |
| augmented reality science education: College Success Amy Baldwin, 2020-03 |
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