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1.
《孙子兵法》传入日本,约在四五世纪,最迟不晚于6世纪。吉备真备并非《孙子兵法》引进日本的第一人。日本的《孙子兵法》研究经历了三个阶段:奈良时代至室町时代(710—1603):秘藏家传时期;江户时代(1603—1868):刊印注释时期;明治时代至今(1868—)融合拓展时期。各时期研究呈现不同特点,从而使日本成为应用《孙子兵法》最为普及的国家。 相似文献
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Douglas Allchin 《Science & Education》2014,23(9):1911-1932
The prospective virtues of using history and philosophy of science in science teaching have been pronounced for decades. Recently, a role for nature of science in supporting scientific literacy has become widely institutionalized in curriculum standards internationally. This short review addresses these current needs, highlighting the concrete views of teachers in the classroom, eschewing ideological ideals and abstract theory. A practical perspective highlights further the roles of history and philosophy—and of sociology, too—and even broadens their importance. It also indicates the relevance of a wide range of topics and work in Science Studies now generally absent from science educational discourse. An extensive reference list is provided. 相似文献
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Research in science education confirms the importance of self-efficacy in students' persistence and success in the sciences. The current study examined the role of science self-efficacy in nonspecialist, arts and communication-oriented students encountering science in a general education context. Participants (N = 275) completed a beginning- and end-of-semester survey including a Science Self-Efficacy Scale, a “connection to science” measure—the Inclusion of Science in Self Scale—and a Science Anxiety Scale. Participants also responded to two open-ended “sources of science efficacy” questions, and provided background/demographic information and access to their academic records. Results showed a significant increase in science self-efficacy and connection to science—although no change in science anxiety—over the course of the semester. The observed shift in self-efficacy for minority and international students was of particular note. These students started the course with lower confidence but, by the end of the semester, reported comparable science self-efficacy, and achieved similar grades to their White/Non-Hispanic and US resident classmates. Contrary to expectations, science self-efficacy did not predict performance in the class. However, students' self-reported sources of efficacy indicated increased confidence in using science in daily life, and confirmed the value of mastery experiences and of personally meaningful, student-centered course design in scaffolding student confidence. Results are discussed in terms of the individual and instructional factors that support science self-efficacy and student success in this unique, general education science environment. 相似文献
4.
Mattos Cristiano Lopez Felipe Sanches Ortega José Luis Rodrigues André 《Science & Education》2022,31(5):1339-1361
Science & Education - The paper reflects on public discourses about science and pseudoscience, proposing the same discursive structure for both—the Esperantist-Epideictic genre. This... 相似文献
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Science & Education - Due to the controversies surrounding the topic of evolution among religious and non-religious people alike, the treatment of biological evolution in education—both... 相似文献
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Science & Education - This article focuses on uncertainty—ways in which scientists recognize and analyze limits in their studies and conclusions. We distinguish uncertainty from... 相似文献
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Instructional Science - Students’ grasp of the non-mathematical language in a mathematics story problem—such as vocabulary and syntax—may have an important effect on their... 相似文献
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《欧洲教育》2013,45(1):85-100
Three Dutch bodies — the Netherlands Universities Council, NUFFIC, and the Rectors' Conference — have traditionally been active in the field of international contacts between universities. In addition, the universities themselves maintain their own international contacts, while governmental responsibility for international university affairs rests with the Ministry of Education and Science. The general responsibilities of these three bodies are discussed below. 相似文献
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Lori A. Wingate 《Community College Journal of Research & Practice》2017,41(6):370-373
ABSTRACTAdvanced Technological Education is distinct from typical National Science Foundation programs in that it is essentially a training—not research—program, and most grantees are located at technical and two-year colleges. This article presents empirical data on the status of research in the program, discusses the program’s role in supporting NSF’s values of intellectual merit and broader impacts, and offers strategies for enhancing research within the program. 相似文献
10.
Rachel A. Short Marina Y. Van der Eb Susan R. McKay 《The Journal of educational research》2020,113(1):46-58
AbstractActive teachers noted persistent problems in their classrooms, including low levels of student engagement and gaps in students’ use of evidence in forming arguments. Earth Science students provided written responses to two questions using the previously implemented Claim, Evidence, Reasoning (CER) framework. The first question was answered without a preceding discussion whereas the second question was answered following a discussion protocol—no discussion, discussion without Talk Science, and discussion with Talk Science. A ninth grade teacher more comprehensively implemented Talk Science by incorporating statements from all four goals whereas a seventh grade teacher did not. As a result, ninth grade students improved their use of evidence, reasoning, and content, but seventh graders did not show the same improvements. All students valued the discussion, but this study shows that Talk Science discussions can be used to improve students’ content knowledge and CER argumentation skills. 相似文献
11.
The emerging field of Data Science has had a large impact on science and society. This has led to over a decade of calls to establish a corresponding field of Data Science Education. There is still a need, however, to more deeply conceptualize what a field of Data Science Education might entail in terms of scope, responsibility, and execution. This special issue explores how one distinguishing feature of Data Science—its focus on data collected from social and environmental contexts within which learners often find themselves deeply embedded—suggests serious implications for learning and education. The learning sciences is uniquely positioned to investigate how such contextual embeddings impact learners’ engagement with data including conceptual, experiential, communal, racialized, spatial, and political dimensions. This special issue demonstrates the richly layered relationships learners build with data and reveals them to be not merely utilitarian mechanisms for learning about data, but a critical part of navigating data as social text and understanding Data Science as a discipline. Together, the contributions offer a vision of how the learning sciences can contribute to a more expansive, agentive and socially aware Data Science Education. 相似文献
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Are ‘Mathematics’ and ‘Science’ such universal notions that one curriculum can serve equally well in all societies, subject only to exemplification from local circumstances? Or do different human cultures construct and use ‘Mathematics’ and ‘Science’ so differently that each culture needs to construct its own curriculum to teach its own children? At issue is whether curricula developed in industrialised states can be readily transferred or adapted to developing countries.Taking as its starting point the fates of the Scools Mathematics and the Schools Science Projects in Kenya, — both adaptations of British models, — this paper reviews the research addressed to these questions. Its conclusion is that definitive answers are not yet possible. Nevertheless, what evidence there is seems to question the possibilities of transferability or even of simple adaptation. 相似文献
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Rebeca V. R. Viana Vera L. Scatena Mayra T. Eichemberg Paulo T. Sano 《Cultural Studies of Science Education》2018,13(1):253-265
Considering that both Western Science and Local Knowledge Systems share a common ground—observations of the natural world—the dialogue between them should not only be possible, but fruitful. Local communities whose livelihoods depend on traditional uses of the local biodiversity not only develop knowledge about nature, making several uses of such knowledge, but, with that process, several inquiries about nature can be raised. Here we present our experience with the engagement of Western Science with golden grass artisan’s knowledge about the buriti palm (M. flexuosa). We applied 25 semi-directive interviews, combined with field diary and participative observation, in two quilombola communities from Jalapão region (Central-Brazil). One of the inquiries that emerged from the artisan’s perspectives was about the differences between male and female buriti palms’ fiber. We then engaged both local and scientific perspectives regarding this issue using plant anatomy as a dialogue instrument. Here we describe this experience and resort to Paulo Freire’s ideas on dialogue to argue that, to integrate Western Science and Local Knowledge Systems in a collaborative and contextualized perspective, the research should be faced as a mutual learning practice. 相似文献
14.
《欧洲教育》2013,45(2):15-23
Introduction: Statistics for the education systems in England and Wales, Scotland and Northern Ireland are collected and processed separately in accordance with the particular needs of the responsible Departments. Each Education Department—the Department of Education and Science, the Welsh Office Education Department, the Scottish Education Department and the Department of Education Northern Ireland—publishes a selection of statistics concerning education within the separate countries. More detailed statistics on universities can be found in the University Grants Committee's own publications. 相似文献
15.
Steven Anderson 《The American journal of distance education》2013,27(3):58-64
Abstract This article briefly reviews and compares three offerings of graduate degrees via the Internet—two Master's programs in the field of Management and one Master's program in the area of Library and Information Science. Three different management degrees offered by the University of Phoenix, the Master of Arts in Management offered by The Graduate School of America, and the Master of Science in Library and Information Science offered by the University of Illinois at Urbana‐Champaign are described according to each program's online and printed prospectus. Based on this information, the three programs are compared and evaluated. The article concludes with a “Consumer's Guide” that formulates some key questions that any potential student of these types of programs should ask before enrolling in such a program. 相似文献
16.
Performances of fourth and sixth grade children who had been in a program based on Science—A Process Approach were compared with performances of control groups on two conservation-of-volume tasks. The fourth grade children who had had Science—A Process Approach performed at a higher level than the control group on one of the tasks. There were no other significant differences between groups. The volume tasks were analyzed and learning hierarchies devised. A test based on the hierarchies was constructed and administered to all (189) children. An instructional program based on the hierarchies was carried out with approximately half of the children in each school at each grade level. All children were then post-tested on the volume tasks and the tasks of the learning hierarchies. All groups who had deceived instruction had higher mean scores on the Learning Hierarchies Test but no group made a significant improvement on the volume tasks. Performance of the volume tasks was found to be related to age and score on the Learning Hierarchies Test. 相似文献
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The authors of this article, all of whom have been a part of this effort to assess argumentation in literacy-rich science curriculum, have struggled with our attempts to build 3 argument-related assessments—understanding, critiquing, and constructing arguments about scientific phenomena in both oral and written modes. Loosely affiliated with the Seeds of Science/Roots of Reading Project at Lawrence Hall of Science, this effort focused on creating a suite of assessments as models for how middle school science teachers might create their own school-based, curriculum-embedded assessments of science. After reviewing the broad scope and insights derived from a 10-year history of assessments that operate at the intersection of science and literacy, we zoom in on 3 vexing but informative challenges they encountered—and addressed (if not resolved)—as they tried to assess the comprehension, critique, and construction of oral and written arguments. 相似文献
18.
The inclusion of the practice of “developing and using models” in the Framework for K-12 Science Education and in the Next Generation Science Standards provides an opportunity for educators to examine the role this practice plays in science and how it can be leveraged in a science classroom. Drawing on conceptions of models in the philosophy of science, we bring forward an agent-based account of models and discuss the implications of this view for enacting modeling in science classrooms. Models, according to this account, can only be understood with respect to the aims and intentions of a cognitive agent (models for), not solely in terms of how they represent phenomena in the world (models of). We present this contrast as a heuristic—models of versus models for—that can be used to help educators notice and interpret how models are positioned in standards, curriculum, and classrooms. 相似文献
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Research in Science Education - Eminent scientists, like Einstein, worked with theoretical contradiction, thought experiments, mental models and visualisation—all characteristics of... 相似文献