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Peter Plant Mar��a Jos�� L��pez-S��nchez 《International Journal for Educational and Vocational Guidance》2011,11(1):3-15
Guidance has a role to play in helping older workers to lead meaningful and fruitful lives; inside, outside, on the edge of
the labour market, or in voluntary work with examples from two very different European countries: Denmark and Spain. This
paper aims to draw attention to older workers guidance from an economic policy approach. It will be demonstrated that there
is a need for more policy making for older workers’ guidance in both countries. 相似文献
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�����ĿƼ��ڿ����ݿ⡷�������Ե�Ӧ�� 总被引:3,自引:0,他引:3
从检索项的选择、布尔逻辑组配和主题词的选取等几个方面,结合检索实例,介绍了计算机检索策略在《中文科技期刊数据库》中的应用 相似文献
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���顶ͨ�ú������ߺ���� 总被引:2,自引:0,他引:2
通过对《通用汉语著者号码表》渊源的追溯,从经验公式、中国人姓名构成状况、机检数据抽样调查等多角度再次对其进行分析研究,既肯定了它的特点,又指出它的不足,还提出了规范书次号的新思路 相似文献
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�������Ŀ�еļ��������� 总被引:9,自引:0,他引:9
通过介绍计算机编目中具有检索点意义的字段和对比手工编目与计算机编目之差异,提出如何设置机读编目中的检索点、扩大检索点、提高计算机编目质量等一系列问题 相似文献
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Alejandro J. Gallard Mart��nez 《Cultural Studies of Science Education》2011,6(3):719-723
This forum considers argumentation as a means of science teaching in South African schools, through the integration of indigenous
knowledge (IK). It addresses issues raised in Mariana G. Hewson and Meshach B. Ogunniyi’s paper entitled: Argumentation-teaching
as a method to introduce indigenous knowledge into science classrooms: opportunities and challenges. As well as Peter Easton’s:
Hawks and baby chickens: cultivating the sources of indigenous science education; and, Femi S. Otulaja, Ann Cameron and Audrey
Msimanga’s: Rethinking argumentation-teaching strategies and indigenous knowledge in South African science classrooms. The
first topic addressed is that implementation of argumentation in the science classroom becomes a complex endeavor when the
tensions between students’ IK, the educational infrastructure (allowance for teacher professional development, etc.) and local
belief systems are made explicit. Secondly, western styles of debate become mitigating factors because they do not always
adequately translate to South African culture. For example, in many instances it is more culturally acceptable in South Africa
to build consensus than to be confrontational. Thirdly, the tension between what is “authentic science” and what is not becomes
an influencing factor when a tension is created between IK and western science. Finally, I argue that the thrust of argumentation
is to set students up as “scientist-students” who will be considered through a deficit model by judging their habitus and
cultural capital. Explicitly, a “scientist-student” is a student who has “learned,” modeled and thoroughly assimilated the
habits of western scientists, evidently—and who will be judged by and held accountable for their demonstration of explicit
related behaviors in the science classroom. I propose that science teaching, to include argumentation, should consist of “listening
carefully” (radical listening) to students and valuing their language, culture, and learning as a model for
“science for all”. 相似文献
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Jos�� V��zquez 《CBE life sciences education》2011,10(3):235-236
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Tania C. Ara��jo-Jorge Tania S. Cardona Cl��udia L. S. Mendes Andrea Henriques-Pons Rosane M. S. Meirelles Cl��udia M. L. M. Coutinho Luiz Edmundo V. Aguiar Maria de Nazareth L. Meirelles Solange L. de Castro Helene S. Barbosa Mauricio R. M. P. Luz 《CBE life sciences education》2004,3(2):99-110
The advent of genomics, proteomics, and microarray technology has brought much
excitement to science, both in teaching and in learning. The public is eager to
know about the processes of life. In the present context of the explosive growth
of scientific information, a major challenge of modern cell biology is to
popularize basic concepts of structures and functions of living cells, to
introduce people to the scientific method, to stimulate inquiry, and to analyze
and synthesize concepts and paradigms. In this essay we present our experience
in mixing science and education in Brazil. For two decades we have developed
activities for the science education of teachers and undergraduate students,
using microscopy images generated by our work as cell biologists. We describe
open-air outreach education activities, games, cell modeling, and other
practical and innovative activities presented in public squares and
favelas. Especially in developing countries, science education is
important, since it may lead to an improvement in quality of life while
advancing understanding of traditional scientific ideas. We show that teaching
and research can be mutually beneficial rather than competing pursuits in
advancing these goals. 相似文献