This important book focuses on creating new ideas for using educational technologies such as the Internet, the World Wide Web, and various software packages to further research and statistics. You will explore on-going debates relating to the theory of research, research methodology, and successful practices. Information Technology in Educational Research and Statistics also covers the debate on what statistical procedures are appropriate for what kinds of research designs.
Increased attention is being paid to the need for statistically educated citizens: statistics is now included in the K-12 mathematics curriculum, increasing numbers of students are taking courses in high school, and introductory statistics courses are required in college. However, increasing the amount of instruction is not sufficient to prepare statistically literate citizens. A major change is needed in how statistics is taught. To bring about this change, three dimensions of teacher knowledge need to be addressed: their knowledge of statistical content, their pedagogical knowledge, and their statistical-pedagogical knowledge, i.e., their specific knowledge about how to teach statistics. This book is written for mathematics and statistics educators and researchers. It summarizes the research and highlights the important concepts for teachers to emphasize, and shows the interrelationships among concepts. It makes specific suggestions regarding how to build classroom activities, integrate technological tools, and assess students’ learning. This is a unique book. While providing a wealth of examples through lessons and data sets, it is also the best attempt by members of our profession to integrate suggestions from research findings with statistics concepts and pedagogy. The book’s message about the importance of listening to research is loud and clear, as is its message about alternative ways of teaching statistics. This book will impact instructors, giving them pause to consider: "Is what I’m doing now really the best thing for my students? What could I do better?" J. Michael Shaughnessy, Professor, Dept of Mathematical Sciences, Portland State University, USA This is a much-needed text for linking research and practice in teaching statistics. The authors have provided a comprehensive overview of the current state-of-the-art in statistics education research. The insights they have gleaned from the literature should be tremendously helpful for those involved in teaching and researching introductory courses. Randall E. Groth, Assistant Professor of Mathematics Education, Salisbury University, USA
As teaching evolves, teacher education must keep up. This book examines systemic reforms that incorporate new technology to improve any teacher education program. While there are books that address the integration of technology into teaching curricula, very few address the process for teacher education faculty and the systemic reform of a teacher education program. Integrating Information Technology into the Teacher Education Curriculum: Process and Products of Change provides practical examples and suggestions for teacher education departments striving to integrate new technologies into their curriculum. It will help in the effort to motivate faculty to make utilizing new technology a natural strategy for the teachers they are educating. It describes the creation of Design Teams at Brigham Young University’s McKay School of Education (funded by a PT3 grant) and how these teams worked to successfully reconfigure the school’s teacher preparation curricula. Integrating Information Technology into the Teacher Education Curriculum examines: how to compose and create a curriculum design teamincluding both teacher education and content-specific methods instructors training and collaboration opportunities that focus on the infusion of technology how to facilitate alignment among a university, cooperating school districts, the State Office of Education, and other available teacher preparation programs specific case examples of the redevelopment of teacher education courses by the instructors who teach them the process of changing a technology course required by the teacher education program the process of extending grant activities to the university’s partner school districts and the State Office of Education From the editors: Preparing tomorrow’s teachers to use technology in schools is a complex endeavor requiring the infusion of technology into curriculum and instructional practices at all levels of the pre-service program. In many early teacher education programs, prospective teachers took a computer literacy class separate from content methods classes and rarely engaged in real collaboration on how schoolteachers could integrate technology into authentic learning experiences. By focusing merely on how to use computers, technology training failed by not addressing how to teach students more effectively using a variety of technological tools. What teachers need to know most is how to teach content more effectively. Technology integration should cause teachers to develop different perspectives through rethinking teaching and learning. Teaching with technology causes teachers to confront their established beliefs about instruction and their traditional roles as classroom teachers.
Advances in technology and media have fundamentally changed the way people perceive research, how research studies are conducted, and the ways data are analyzed/how the findings are presented. Emerging internet-enabled technological tools have enhanced and transformed research in education and the way educators must adapt to conduct future studies. Advancing Educational Research With Emerging Technology provides innovative insights into cutting-edge and long-standing digital tools in educational research and addresses theoretical, methodological, and ethical dimensions in doing research in the digital world. The content within this publication examines such topics as computational linguistics, individualized learning, and mobile technologies. The design of this publication is suited for students, professors, higher education faculty, deans, academicians, researchers, and practitioners looking to expand their research through the use of a broad range of digital tools and resources.
Unique in that it collects, presents, and synthesizes cutting edge research on different aspects of statistical reasoning and applies this research to the teaching of statistics to students at all educational levels, this volume will prove of great value to mathematics and statistics education researchers, statistics educators, statisticians, cognitive psychologists, mathematics teachers, mathematics and statistics curriculum developers, and quantitative literacy experts in education and government.
Over the past thirty years, there has been much dialogue, and debate, about the conduct of educational technology research and development. In this brief volume, the author helps clarify that dialogue by theoretically and empirically charting the research methods used in the field and provides much practical information on how to conduct educational technology research. Within this text, readers can expect to find answers to the following questions: (a) What are the methodological factors that need to be taken into consideration when designing and conducting educational technology research? (b) What types of research questions do educational technology researchers tend to ask? (c) How do educational technology researchers tend to conduct research? (d) What approaches do they use? What variables do they examine? What types of measures do they use? How do they report their research? (d) How can the state of educational technology research be improved? In addition to answering the questions above, the author, a research methodologist, provides practical information on how to conduct educational technology research--from formulating research questions, to collecting and analyzing data, to writing up the research reports--in each of the major quantitative and qualitative traditions. Unlike other books of this kind, the author addresses some of research approaches used less commonly in educational technology research, but which, nonetheless, have much potential for creating new insights about educational phenomena--approaches such as single-participant research, quantitative content analysis, ethnography, narrative research, phenomenology, and others. "Multidisciplinary Methods in Educational Technology Research and Development" is an excellent text for educational technology research methods courses, a useful guide for those conducting (or supervising) research, and a rich source of empirical information on the art and science of educational technology research. Key Questions in Educational Technology Methods Choice are appended. (Contains 13 figures and 13 tables.) [This publication was produced by the HAMK University of Applied Sciences.].
Choose the right hardware and software for your school! This unique book is the first systematic work on evaluating and assessing educational information technology. Here you?ll find specific strategies, best practices, and techniques to help you choose the educational technology that is most appropriate for your institution. Evaluation and Assessment in Educational Information Technology will show you how to measure the effects of information technology on teaching and learning, help you determine the extent of technological integration into the curriculum that is best for your school, and point you toward the most effective ways to teach students and faculty to use new technology. Evaluation and Assessment in Educational Information Technology presents: a summary of the last ten years of assessment instrument development seven well-validated instruments that gauge attitudes, beliefs, skills, competencies, and technology integration proficiencies two content analysis instruments for analyzing teacher-student interaction patterns in a distance learning setting an examination of the best uses of computerized testing--as opposed to conventional tests, as used in local settings, to meet daily instructional needs, in online delivery programs, in public domain software, and available commercial and shareware options successful pedagogical and assessment strategies for use in online settings a four-dimensional model to assess student learning in instructional technology courses three models for assessing the significance of information technology in education from a teacher?s perspective an incisive look at Michigan?s newly formed Consortium of Outstanding Achievement in Teaching with Technology (COATT) ways to use electronic portfolios for teaching/learning performance assessment and much more!
Evolution of Information Technology in Educational Management As the editors of this volume we are very happy to publish a selection of the papers that were presented at the eighth Conference of Working Group 3.7 of the International Federation for Information Processing which was held in July 2008. The focus of Working Group 3.7 is on ITEM: Information Technology in Educational Management (for more information, please visit our website http://item.wceruw.org/), and the theme of its 2008 conference was on the Evolution of Information Technology in Educational Management. Our Working Group started its activities (officially we were not an IFIP Working Group at that time) in 1994 in Israel, so it made sense to look at how ITEM has evolved over the years and to reflect on what its future may be. The conference took place in Darwin (northern Australia) which even during the Australian winter is a very pleasant location for having a conference. The town of Darwin was given its name by the Captain of the Beagle (the ship on which Darwin travelled when he made the investigations on which he based his Theory of Evolution) who came to the area and named the town after the giant of science he admired.
Computers, communications, digital information, softwareâ€"the constituents of the information ageâ€"are everywhere. Being computer literate, that is technically competent in two or three of today's software applications, is not enough anymore. Individuals who want to realize the potential value of information technology (IT) in their everyday lives need to be computer fluentâ€"able to use IT effectively today and to adapt to changes tomorrow. Being Fluent with Information Technology sets the standard for what everyone should know about IT in order to use it effectively now and in the future. It explores three kinds of knowledgeâ€"intellectual capabilities, foundational concepts, and skillsâ€"that are essential for fluency with IT. The book presents detailed descriptions and examples of current skills and timeless concepts and capabilities, which will be useful to individuals who use IT and to the instructors who teach them.
