Games and simulations are an effective way of supporting the curriculum. This handbook demonstrates how to develop and use games and simulations in schools. It provides practical advice and guidance on how and when to use these as well as illustrative cases from nursery schools to secondary level.
At a time when scientific and technological competence is vital to the nation's future, the weak performance of U.S. students in science reflects the uneven quality of current science education. Although young children come to school with innate curiosity and intuitive ideas about the world around them, science classes rarely tap this potential. Many experts have called for a new approach to science education, based on recent and ongoing research on teaching and learning. In this approach, simulations and games could play a significant role by addressing many goals and mechanisms for learning science: the motivation to learn science, conceptual understanding, science process skills, understanding of the nature of science, scientific discourse and argumentation, and identification with science and science learning. To explore this potential, Learning Science: Computer Games, Simulations, and Education, reviews the available research on learning science through interaction with digital simulations and games. It considers the potential of digital games and simulations to contribute to learning science in schools, in informal out-of-school settings, and everyday life. The book also identifies the areas in which more research and research-based development is needed to fully capitalize on this potential. Learning Science will guide academic researchers; developers, publishers, and entrepreneurs from the digital simulation and gaming community; and education practitioners and policy makers toward the formation of research and development partnerships that will facilitate rich intellectual collaboration. Industry, government agencies and foundations will play a significant role through start-up and ongoing support to ensure that digital games and simulations will not only excite and entertain, but also motivate and educate.
Jossey-Bass Guides to Online Teaching and Learning Learning Online with Games, Simulations, and Virtual Worlds Strategies for Online Instruction Clark Aldrich Learning Online with Games, Simulations, and Virtual Worlds The infusion of games, simulations, and virtual worlds into online learning can be a transforming experience for both the instructor and the student. This practical guide, written by education game expert Clark Aldrich, shows faculty members and instructional designers how to identify opportunities for building games, simulations, and virtual environments into the curriculum; how to successfully incorporate these interactive environments to enhance student learning; and how to measure the learning outcomes. It also discusses how to build institutional support for using and financing more complex simulations. The book includes frameworks, tips, case studies and other real examples, and resources. Praise for Learning Online with Games, Simulations, and Virtual Worlds "Clark Aldrich provides powerful insights into the dynamic arena of games, simulations, and virtual worlds in a simultaneously entertaining and serious manner as only he can. If you are involved with educating anyone, from your own children to classrooms full of students, you need to devour this book." — Karl Kapp, assistant director, Institute for Interactive Technologies, Bloomsburg University "At a time when the technologies for e-learning are evolving faster than most people can follow, Aldrich successfully bridges the perceptual gap between virtual worlds, digital games, and educational simulations, and provides educators with all they really need to use this technology to enhance and enrich their e-learning experiences." — Katrin Becker, instructor, Department of Computer Science and Information Systems, Mount Royal College, and adjunct professor of education, University of Calgary "I consider this a must-read for anyone engaged in or contemplating using these tools in their classrooms or designing their own tools." — Rick Van Sant, professor of learning and technology, Ferris State University
"This book examines the potential of games and simulations in online learning, and how the future could look as developers learn to use the emerging capabilities of the Semantic Web. It explores how the Semantic Web will impact education and how games and simulations can evolve to become robust teaching resources"--Provided by publisher.
Presenting original studies and rich conceptual analyses, this volume reports on theoretical issues involved in the use of simulations and games in educational assessment. Chapters consider how technologies can be used to effectively assess, modify, and enhance learning and assessment in education and training. By highlighting theoretical issues arising from the use of games and simulations as assessment tools for selection and classification, training, and evaluation across educational and workplace contexts, the volume offers both broad conceptual views on assessment, as well as rich descriptions of various, context-specific applications. Through a focus that includes both quantitative and qualitative approaches, policy implications, meta-analysis, and constructs, the volume highlights commonalities and divergence in theoretical research being conducted in relation to K-12, post-secondary, and military education and assessment. In doing so, the collection enhances understanding of how games and simulations can intersect with the science of learning to improve educational outcomes. Given its rigorous and multidisciplinary approach, this book will prove an indispensable resource for researchers and scholars in the fields of educational assessment and evaluation, educational technology, military psychology, and educational psychology.
Technology has increasingly become utilized in classroom settings in order to allow students to enhance their experiences and understanding. Among such technologies that are being implemented into course work are game-based learning programs. Introducing game-based learning into the classroom can help to improve students’ communication and teamwork skills and build more meaningful connections to the subject matter. While this growing field has numerous benefits for education at all levels, it is important to understand and acknowledge the current best practices of gamification and game-based learning and better learn how they are correctly implemented in all areas of education. The Research Anthology on Developments in Gamification and Game-Based Learning is a comprehensive reference source that considers all aspects of gamification and game-based learning in an educational context including the benefits, difficulties, opportunities, and future directions. Covering a wide range of topics including game concepts, mobile learning, educational games, and learning processes, it is an ideal resource for academicians, researchers, curricula developers, instructional designers, technologists, IT specialists, education professionals, administrators, software designers, students, and stakeholders in all levels of education.
As part of an international dialogue between researchers in educational technology, this title investigates where games can motivate students to learn and improve their knowledge and skills.
Employ cognitive theory in the classroom every day Research into how we learn has opened the door for utilizing cognitive theory to facilitate better student learning. But that's easier said than done. Many books about cognitive theory introduce radical but impractical theories, failing to make the connection to the classroom. In Small Teaching, James Lang presents a strategy for improving student learning with a series of modest but powerful changes that make a big difference—many of which can be put into practice in a single class period. These strategies are designed to bridge the chasm between primary research and the classroom environment in a way that can be implemented by any faculty in any discipline, and even integrated into pre-existing teaching techniques. Learn, for example: How does one become good at retrieving knowledge from memory? How does making predictions now help us learn in the future? How do instructors instill fixed or growth mindsets in their students? Each chapter introduces a basic concept in cognitive theory, explains when and how it should be employed, and provides firm examples of how the intervention has been or could be used in a variety of disciplines. Small teaching techniques include brief classroom or online learning activities, one-time interventions, and small modifications in course design or communication with students.
This book presents an in-depth overview of the uses of digital games in education, from K-12 up through post-secondary. Beginning with a look at the history of games in education and the context for digital games, this book guides readers through various methods of serious game implementation, including the Magic Bullet Model, which focuses on the player's point of view of the game experience. The book also includes methods of measuring the effects of games in education and guidance on creating digital game-based learning lesson plans.
This open access book critiques real world learning across both the curriculum and extracurricular activities. Drawing on disciplines as diverse as business, health, fashion, sociology and geography, the editors and authors employ a cross-disciplinary approach to examine how this concept is being applied in higher education. Divided into three parts, the authors and contributors analyse broader applications of real world learning, student experience of practicing in a real world setting, and how learning strategies can be employed to engage students in real world learning. The editors and contributors provide up-to-date, cross-disciplinary and international insights into how real world learning could be integrated into the higher education curriculum to support effective, relevant and life-long learning for 21st century students.