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This first volume in the International Technology Education Series offers a unique, worldwide collection of national surveys into the developments of Technology Education in the past two decades.
This book explores pedagogy appropriate for the secondary school technology education classroom. It covers the dimensions of pedagogy for technology with scholarly research, including information strongly related to practice. The book discusses the nature of technology courses in secondary schools across various jurisdictions and considers how they might be viewed with regard to different epistemological frameworks. The writing is informed by, but not limited to, research and strongly related to practice with acknowledged experts in the field of technology education contributing chapters supported by evidence from technology education research or other fields. The authors speculate on pedagogical possibilities in their areas of expertise in order to consider pedagogical possibilities and develop a view of where pedagogy for technology education should move and how teachers might respond in the way they develop their practice.
A Science “Reading List for Uncertain Times” Selection “A must-read for anyone with even a passing interest in the present and future of higher education.” —Tressie McMillan Cottom, author of Lower Ed “A must-read for the education-invested as well as the education-interested.” —Forbes Proponents of massive online learning have promised that technology will radically accelerate learning and democratize education. Much-publicized experiments, often underwritten by Silicon Valley entrepreneurs, have been launched at elite universities and elementary schools in the poorest neighborhoods. But a decade after the “year of the MOOC,” the promise of disruption seems premature. In Failure to Disrupt, Justin Reich takes us on a tour of MOOCs, autograders, “intelligent tutors,” and other edtech platforms and delivers a sobering report card. Institutions and investors favor programs that scale up quickly at the expense of true innovation. Learning technologies—even those that are free—do little to combat the growing inequality in education. Technology is a phenomenal tool in the right hands, but no killer app will shortcut the hard road of institutional change. “I’m not sure if Reich is as famous outside of learning science and online education circles as he is inside. He should be...Reading and talking about Failure to Disrupt should be a prerequisite for any big institutional learning technology initiatives coming out of COVID-19.” —Inside Higher Ed “The desire to educate students well using online tools and platforms is more pressing than ever. But as Justin Reich illustrates...many recent technologies that were expected to radically change schooling have instead been used in ways that perpetuate existing systems and their attendant inequalities.” —Science
This booklet includes the full text of the ISTE Standards for Students, along with the Essential Conditions, profiles and scenarios.
This fourth volume in the Current Perspectives on School/University/Community Research series brings together the perspectives of authors who are deeply committed to the integration of digital technology with teaching and learning. Authors were invited to discuss either a completed project, a work-in-progress, or a theoretical approach which aligned with one of the trends highlighted by the New Media Consortium’s NMC/CoSN Horizon Report: 2017 K-12 Edition, or to consider how the confluence of interest and action (Thompson, Martinez, Clinton, & Díaz, 2017) among school-university-community collaborative partners in the digital technology in education space resulted in improved outcomes for all—where “all” is broadly conceived and consists of the primary beneficiaries (the students) as well as the providers of the educational opportunities and various subsets of the community in which the integrative endeavors are enacted. The chapters in this volume are grouped into four sections: Section 1 includes two chapters that focus on computational thinking/coding in the arts (music and visual arts); Section 2 includes three chapters that focus on the instructor in the classroom, preservice teacher preparation, and pedagogy; Section 3 includes four chapters that focus on building the academic proficiency of students; and Section 4 includes two chapters that focus on the design and benefits of school-university-community collaboration.
The vitality of the innovation economy in the United States depends on the availability of a highly educated technical workforce. A key component of this workforce consists of engineers, engineering technicians, and engineering technologists. However, unlike the much better-known field of engineering, engineering technology (ET) is unfamiliar to most Americans and goes unmentioned in most policy discussions about the US technical workforce. Engineering Technology Education in the United States seeks to shed light on the status, role, and needs of ET education in the United States.
This book addresses the issues confronting educators in the integration of digital technologies into their teaching and their students’ learning. Such issues include a skepticism of the added value of technology to educational learning outcomes, the perception of the requirement to keep up with the fast pace of technological innovation, a lack of knowledge of affordable educational digital tools and a lack of understanding of pedagogical strategies to embrace digital technologies in their teaching. This book presents theoretical perspectives of learning and teaching today’s digital students with technology and propose a pragmatic and sustainable framework for teachers’ professional learning to embed digital technologies into their repertoire of teaching strategies in a systematic, coherent and comfortable manner so that technology integration becomes an almost effortless pedagogy in their day-to-day teaching. The materials in this book are comprised of original and innovative contributions, including empirical data, to existing scholarship in this field. Examples of pedagogical possibilities that are both new and currently practised across a range of teaching contexts are featured. ​
Technology acceptance can be defined as a user’s willingness to employ technology for the tasks it is designed to support. Over the years, acceptance researchers have become more interested in understanding the factors influencing the adoption of technologies in various settings. From the literature, much research has been done to understand technology acceptance in the business contexts. This is understandable, given the close relationship between the appropriate uses of technology and profit margin. In most of the acceptance studies, researchers have sought to identify and understand the forces that shape users’ acceptance so as to influence the design and implementation process in ways to avoid or minimize resistance or rejection when users interact with technology. Traditionally, it has been observed that developers and procurers of technological resources could rely on authority to ensure that technology was used, which is true in many industrial and organizational contexts. However, with the increasing demands for educational applications of information technology and changing working practices, there is s need to re-examine user acceptance issues as they emerge within and outside of the contexts in which technology was implemented. This is true in the education milieu where teachers exercise the autonomy to decide on what and how technology will be used for teaching and learning purposes. Although they are guided by national and local policies to use technology in the classrooms, teachers spent much of their planning time to consider how technology could be harnessed for effective lesson delivery and assessment to be conducted. These circumstances have provided the impetus for researchers to study technology acceptance in educational settings. Although these studies have typically involved students and teachers as participants, their findings have far-reaching implications for school leaders, policy makers, and other stakeholders. The book is a critical and specialized source that describes recent research on technology acceptance in education represented by educators and researchers from around the world such as Australia, Belgium, China, Hong Kong, Malaysia, Singapore, United Kingdom, and United States of America.
This collection examines issues of agency, power, politics and identity as they relate to science and technology and education, within contemporary settings. Social, economic and ecological critique and reform are examined by numerous contributing authors, from a range of international contexts. These chapters examine pressing pedagogical questions within socio-scientific contexts, including petroleum economies, food justice, health, environmentalism, climate change, social media and biotechnologies. Readers will discover far reaching inquiries into activism as an open question for science and technology education, citizenship and democracy. The authors call on the work of prominent scholars throughout the ages, including Bourdieu, Foucault, Giroux, Jasanoff, Kierkegaard, Marx, Nietzsche, Rancière and Žižek. The application of critical theoretical scholarship to mainstream practices in science and technology education distinguishes this book, and this deep, theoretical treatment is complemented by many grounded, more pragmatic exemplars of activist pedagogies. Practical examples are set within the public sphere, within selected new social movements, and also within more formal institutional settings, including elementary and secondary schools, and higher education. These assembled discussions provide a basis for a more radically reflexive reworking of science and technology education. Educational policy makers, science education scholars, and science and technology educators, amongst others, will find this work thought-provoking, instructive and informative.
Twenty-five years ago there was increasing optimism in policy, curriculum and research about the contribution that technology education might make to increased technological literacy in schools and the wider population. That optimism continues, although the status of technology as a learning area remains fragile in many places. This edited book is offered as a platform from which to continue discussions about how technology education might progress into the future, and how the potential of technology education to be truly relevant and valued in school learning can be achieved. The book results from a collaboration between leading academics in the field, the wider group of authors having had input into each of the chapters. Through the development of a deep understanding of technology, based on a thoughtful philosophy, pathways are discussed to facilitate student learning opportunities in technology education. Consideration is given to the purpose(s) of technology education and how this plays out in curriculum, pedagogies, and assessment. Key dimensions, including design, critique, students’ cultural capital are also explored, as are the role and place of political persuasion, professional organisations, and research that connects with practice. The discussion in the book leads to a conclusion that technology education has both an ethical and moral responsibility to support imaginings that sustain people and communities in harmony and for the well being of the broader ecological and social environment.