The Hidden Curriculum—Faculty-Made Tests in Science PDF Download
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Author: Sheila Tobias
Publisher: Springer Science & Business Media
ISBN: 1489904824
Category : Science
Languages : en
Pages : 142
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Book Description
This resource manual for college-level science instructors reevaluates the role of testing in their curricula and describes innovative techniques pioneered by other teachers. part I examines the effects of the following on lower-division courses: changes in exam content, format, and environment; revisions in grading practices; student response; colleague reaction' the sharing of new practices with other interested professionals, and more. The book includes a comprehensive introduction, faculty-composed narratives, commentaries by well-known science educators, and a visual index to 100 more refined innovations.
Author: Sheila Tobias
Publisher: Springer Science & Business Media
ISBN: 1489904824
Category : Science
Languages : en
Pages : 142
Get Book Here
Book Description
This resource manual for college-level science instructors reevaluates the role of testing in their curricula and describes innovative techniques pioneered by other teachers. part I examines the effects of the following on lower-division courses: changes in exam content, format, and environment; revisions in grading practices; student response; colleague reaction' the sharing of new practices with other interested professionals, and more. The book includes a comprehensive introduction, faculty-composed narratives, commentaries by well-known science educators, and a visual index to 100 more refined innovations.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Author: Kenneth P. King
Publisher: Springer Science & Business Media
ISBN: 0306476533
Category : Education
Languages : en
Pages : 220
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Book Description
This book deals with the use of technology in science teaching. The author is not, nor has ever had an intention of being a “techie. ” Rather, I spent the first decade of my professional life as a high school physics teacher, making occasional uses of technology to further student understanding and to automate my own teaching practices. During my graduate work, my interest in the use of technology continued. Catalyzed, to some extent by the increasing availability of graphical interfaces for computers, the realization struck that the computer was more and more becoming a tool that all teachers could use to support their teaching practice—not simply those with a passion for the technology itself. The rapid changes in the hardware and software available, however, frequently caused me to reflect on the usefulness of technology—if it were to change at such a rapid pace, would anyone, save for those who diligently focused on the development of these tools, be able to effectively use technology in science teaching? Was change to rapid to yield a useful tool for teachers? To address this interest, I examined the nature of science teaching during this century—using the equally fluid notion of “scientific literacy”—which formed the organizing principle for this study. The result is a examination of how technology was used to accomplishing this goal of producing scientifically literate citizens. What was observed is that technology, indeed, consistently came to the service of teachers as they attempted to achieve this goal.
Author: Michael Matthews
Publisher: Springer Science & Business Media
ISBN: 9401139946
Category : Education
Languages : en
Pages : 459
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Book Description
The book's argument depends, as do most proposals in education, upon cer tain positions in the philosophy of education. I believe that education should be primarily concerned with developing understanding, with initiation into worth while traditions of intellectual achievement, and with developing capacities for clear, analytic and critical thought. These have been the long-accepted goals of liberal education. In a liberal education, students should come to know and appre ciate a variety of disciplines, know them at an appropriate depth, see the interconnectedness of the disciplines, or the modes of thought, and finally have some critical disposition toward what is being learned, to be genuinely open minded about intellectual things. These liberal goals are contrasted with goals such as professional training, job preparation, promotion of self-esteem, social engineering, entertainment, or countless other putative purposes of schooling that are enunciated by politicians, administrators, and educators. The book's argument might be consistent with other views of education especially ones about the training of specialists (sometimes called a professional view of education)-but the argument fits best with a liberal view of education. The liberal hope has always been that if education is done well, then other per sonal and social goods will follow. The development of informed, critical, and moral capacities is the cornerstone for personal and social achievements.
Author: David D. Kumar
Publisher: Springer Science & Business Media
ISBN: 940113992X
Category : Science
Languages : en
Pages : 315
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Book Description
David D. Kumar and Daryl E. Chubin We live in an information age. Technology abounds: information tech nology, communication technology, learning technology. As a once popular song went, "Something's happening here, but it's just not exactly clear." The world appears to be a smaller, less remote place. We live in it, but we are not necessarily closely tied to it. We lack a satisfactory understanding of it. So we are left with a paradox: In an information age, information alone will neither inform nor improve us as citizens nor our democracy, society, or in stitutions. No, improvement will take some effort. It is a heavy burden to be reflective, indeed analytical, and disciplined but only constructively constrained by different perspectives. The science-based technology that makes for the complexity, contro versy, and uncertainty of life sows the seeds of understanding in Science, Technology, and Society. STS, as it is known, encompasses a hybrid area of scholarship now nearly three decades old. As D. R. Sarewitz,a former geologist now congressional staffer and an author, put it After all, the important and often controversial policy dilemmas posed by issues such as nuclear energy, toxic waste disposal, global climate change, or biotech nology cannot be resolved by authoritative scientific knowledge; instead, they must involve a balancing of technical considerations with other criteria that are explicitly nonscientific: ethics, esthetics, equity, ideology. Trade-offs must be made in light of inevitable uncertainties (Sarewitz, 1996, p. 182).
Author: Susan S. Klein
Publisher: Routledge
ISBN: 131763960X
Category : Education
Languages : en
Pages : 1878
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Book Description
First published in 1985, the Handbook for Achieving Gender Equity Through Education quickly established itself as the essential reference work concerning gender equity in education. This new, expanded edition provides a 20-year retrospective of the field, one that has the great advantage of documenting U.S. national data on the gains and losses in the efforts to advance gender equality through policies such as Title IX, the landmark federal law prohibiting sex discrimination in education, equity programs and research. Key features include: Expertise – Like its predecessor, over 200 expert authors and reviewers provide accurate, consensus, research-based information on the nature of gender equity challenges and what is needed to meet them at all levels of education. Content Area Focus – The analysis of gender equity within specific curriculum areas has been expanded from 6 to 10 chapters including mathematics, science, and engineering. Global/Diversity Focus – Global gender equity is addressed in a separate chapter as well as in numerous other chapters. The expanded section on gender equity strategies for diverse populations contains seven chapters on African Americans, Latina/os, Asian and Pacific Island Americans, American Indians, gifted students, students with disabilities, and lesbian, gay, bisexual, and transgender students. Action Oriented – All chapters contain practical recommendations for making education activities and outcomes more gender equitable. A final chapter consolidates individual chapter recommendations for educators, policymakers, and researchers to achieve gender equity in and through education. New Material – Expanded from 25 to 31 chapters, this new edition includes: *more emphasis on male gender equity and on sexuality issues; *special within population gender equity challenges (race, ability and disability, etc); *coeducation and single sex education; *increased use of rigorous research strategies such as meta-analysis showing more sex similarities and fewer sex differences and of evaluations of implementation programs; *technology and gender equity is now treated in three chapters; *women’s and gender studies; *communication skills relating to English, bilingual, and foreign language learning; and *history and implementation of Title IX and other federal and state policies. Since there is so much misleading information about gender equity and education, this Handbook will be essential for anyone who wants accurate, research-based information on controversial gender equity issues—journalists, policy makers, teachers, Title IX coordinators, equity trainers, women’s and gender study faculty, students, and parents.
Author: Karen C. Cohen
Publisher: Springer Science & Business Media
ISBN: 146155909X
Category : Science
Languages : en
Pages : 275
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Book Description
Science teachers come in many varieties, but they share a common goal: to nurture learners. Over the past decade, we have learned a great deal about how to do this effectively. Of all this new (and some not so new) knowledge, what strikes me as most important is that learning occurs best within a context. Still, as obvious as that may seem, it is relatively rare in our high school science classrooms. The problem, of course, is that it is not easy to create a learning experience with hands-on relevance to the science under discussion. Science teachers, in addition to not having the the time, for the most part do not have the expertise or readily available resources. The solution lies in finding ways to bring scientists into the teaching/learning equation. Scientists teamed with teachers and their students represent a very real and rich opportunity to involve students in real science as practiced. Imagine a research book that gives examples of honest, science-research experiences for science-oriented students. What's more, imagine a book that includes examples where students are collaborating with scientists from all over the world on research projects, in person or via the Internet. Internet Linksfor Science Education does just that. It explores the role of the Internet and technol ogy in working student-scientist partnerships.
Author: Leo Gafney
Publisher: Springer Science & Business Media
ISBN: 1402061862
Category : Education
Languages : en
Pages : 160
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Book Description
There seems to be no end to the flood of conferences, workshops, panel discussions, reports and research studies calling for change in the introductory science courses in our colleges and universities. But, there comes a time to move from criticism to action. In 1993, the Division of Undergraduate Education of the National Science Foundation called for proposals for systemic initiatives to change the way int- ductory chemistry is taught. One of the five awards was to design, develop and implement the peer-led Workshop, a new structure to help students learn science. This book is a study of 15 years of work by the Peer-Led Team Learning (PLTL) project, a national consortium of faculty, learning specialists and students. The authors have been in the thick of the action as project evaluator (Gafney) and co-principle investigator (Varma-Nelson). Readers of this book will find a story of successful change in educational practice, a story that continues today as new institutions, faculty, and disciplines adopt the PLTL model. They will learn the model in theory and in practice and the supporting data that encourage others to adopt and adapt PLTL to new sit- tions. Although the project has long since lost count of the number of implem- tations of the model, conservative estimates are that more than 100 community and four year colleges and a range of universities have adopted the PLTL model to advance student learning for more than 20,000 students in a variety of STEM disciplines.
Author:
Publisher:
ISBN:
Category : Education
Languages : en
Pages : 416
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Book Description
Author: David W. Brooks
Publisher: Springer Science & Business Media
ISBN: 0306476827
Category : Education
Languages : en
Pages : 342
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Book Description
This book delves into a review of current research, active learning strategies, Web courseware, metacognition, strategies for Web discussions, promoting student self-regulation, building interactive Web pages, basic HTML coding, managing Web sites, using databases, automated testing, and security and legal issues. It helps readers pick and choose what aspects of the Web to employ to achieve the greatest student learning gains.
