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Introduction According to Sterner (2015)1, “Very few people are really aware of their thoughts. Their minds run all over the place without their permission, and they go along for the ride unknowingly and without making a choice.” Thinking requires the ability to represent and manipulate ideas in the head. It can be distracted by intense direct emotion and sensations as well as pressure to act quickly. Engagement in thinking can be enhanced by practicing theoretical model building and the creation of scenarios for action. Analytical skills of theory building, quantitative data analysis and technology management can aid in the development and expression of the thinking mode of learning.
Metacognition plays an important role in numerous aspects of higher educational learning strategies. When properly integrated in the educational system, schools are better equipped to build more efficient and successful learning strategies for students in higher education. Metacognition and Successful Learning Strategies in Higher Education is a detailed resource of scholarly perspectives that discusses current trends in learning assessments. Featuring extensive coverage on topics such as spiritual intelligence strategies, literacy development, and ubiquitous learning, this is an ideal reference source for academicians, graduate students, practitioners, and researchers who want to improve their learning strategies using metacognition studies.
Emerging technologies have enhanced the learning capabilities and opportunities in modern school systems. To continue the effective development of such innovations, the intended users must be taken into account. End-User Considerations in Educational Technology Design is a pivotal reference source for the latest scholarly material on usability testing techniques and user-centered design methodologies in the development of technological tools for learning environments. Highlighting a range of pertinent topics such as multimedia learning, human-computer interaction, and online learning, this book is ideally designed for academics, researchers, school administrators, professionals, and practitioners interested in the design of optimized educational technologies.
This volume presents the most current perspectives on the role of metacognition in diverse educationally relevant domains. The purpose is to examine the ways in which theoretical investigations of metacognition have recently produced a strong focus on educational practice. The book is organized around four general themes relevant to education: metacognition and problem solving, metacognition and verbal comprehension, metacognition and the education of nontraditional populations, and metacognition and studentship. Chapter authors review current literature as it applies to their chapter topic; discuss theoretical implications and suggestions for future research; and provide educational applications. Each chapter describes testable theory and provides examples of how theory can be applied to the classroom. The volume will have wide appeal to researchers and students concerned with the scientific investigation of metacognition, and to practitioners concerned with the cultivation of learning and achievement in their students. The unique contribution of this book to the literature on metacognition is its presentation of the most current research examining specific theoretical aspects of metacognition in domains directly relevant to education. This is especially valuable for the many researchers and practitioners who subscribe to the concept that by fostering metacognitive processes during instruction, more durable and transferable learning can be achieved.
Unique and stimulating, this book addresses metacognition in both the neglected area of teaching and the more well-established area of learning. It addresses domain-general and domain-specific aspects of metacognition, including applications to the particular subjects of reading, speaking, mathematics, and science. This collection spans theory, research and practice related to metacognition in education at all school levels, from elementary through university.
This volume provides the first comprehensive, research-based examination of metacognition in literacy learning. Bringing together research findings from reading, linguistics, psychology, and education, it is logically organized as follows: Part I provides the theoretical foundation that supports the teaching of metacognition; Parts II and III provide new methods for metacognitive assessment and instruction in literacy contexts at all grade levels; and Part IV provides new information on integrating metacognition into professional development programs. Key features include: *Chapter Structure.Teacher reflections at the beginning of each chapter illustrate teacher thinking about the chapter topic and metacognitive connections at the end of each chapter link its content with that of the preceding and following chapters. *Contributor Expertise. Few volumes can boast of a more luminous cast of contributing authors (see table of contents). *Comprehensiveness. Twenty chapters organized into four sections plus a summarizing chapter make this the primary reference work in the field of literacy-based metacognition. This volume is appropriate for reading researchers, professional development audiences, and for upper-level undergraduate and graduate level courses in reading and educational psychology.
Research Methods in Learning Design and Technology explores the many forms, both new and established, that research takes within the field of instructional design and technology (IDT). Chapters by experienced IDT researchers address methodologies such as meta-analysis, social media research, user experience design research, eye-tracking research, and phenomenology, situating each approach within the broader context of how IDT research has evolved and continues to evolve over time. This comprehensive, up-to-date volume familiarizes graduate students, faculty, and instructional design practitioners with the full spectrum of approaches available for investigating the new and changing educational landscapes. The book also discusses the history and prospective future of research methodologies in the IDT field.
This book is devoted to the Metacognition arena. It highlights works that show relevant analysis, reviews, theoretical, and methodological proposals, as well as studies, approaches, applications, and tools that shape current state, define trends and inspire future research. As a result of the revision process fourteen manuscripts were accepted and organized into five parts as follows: · Conceptual: contains conceptual works oriented to: (1) review models of strategy instruction and tailor a hybrid strategy; (2) unveil second-order judgments and define a method to assess metacognitive judgments; (3) introduces a conceptual model to describe the metacognitive activity as an autopoietic system. · Framework: offers three works concerned with: (4) stimulate metacognitive skills and self-regulatory functions; (5) evaluate metacognitive skills and self-regulated learning at problem solving; (6) deal with executive management metacognition and strategic knowledge metacognition. · Studies: reports research related to: (7) uncover how metacognitive awareness of listening strategies bias listening proficiency; (8) unveil how metacognitive skills and motivation are achieved in science informal learning; (9) tackle stress at learning by means of coping strategies. · Approaches: focus on the following targets: (10) social metacognition to support collaborative problem solving; (11) metacognitive skills to be stimulated in computer supported collaborative learning; (12) metacognitive knowledge and metacognitive experiences are essential for teaching practices. · Tools: promotes the use of intelligent tutoring systems such as: (13) BioWorld allows learners to practice medical diagnostic by providing virtual patient cases; (14) MetaHistoReasoning provides examples to learners and inquiries about the causes of historical events. This volume will be a source of interest for researchers, practitioners, professors, and postgraduate students aimed at updating their knowledge and finding targets for future work in the metacognition arena.
Why is metacognition gaining recognition, both in education generally and in science learning in particular? What does metacognition contribute to the theory and practice of science learning? Metacognition in Science Education discusses emerging topics at the intersection of metacognition with the teaching and learning of science concepts, and with higher order thinking more generally. The book provides readers with a background on metacognition and analyses the latest developments in the field. It also gives an account of best-practice methodology. Expanding on the theoretical underpinnings of metacognition, and written by world leaders in metacognitive research, the chapters present cutting-edge studies on how various forms of metacognitive instruction enhance understanding and thinking in science classrooms. The editors strive for conceptual coherency in the various definitions of metacognition that appear in the book, and show that the study of metacognition is not an end in itself. Rather, it is integral to other important constructs, such as self-regulation, literacy, the teaching of thinking strategies, motivation, meta-strategies, conceptual understanding, reflection, and critical thinking. The book testifies to a growing recognition of the potential value of metacognition to science learning. It will motivate science educators in different educational contexts to incorporate this topic into their ongoing research and practice.