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关于高等工科院校设立数学实验课的思考徐蕴珍(华中理工大学汉口分校,武汉430012)全国高等工科院校数学课程指导委员会(简称课委会)所作的《关于工科数学系列课程教学改革的建议》就工科数学教学改革问题作了全面的、深刻的阐述,指明了工科数学教改的必要性,... 相似文献
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为了改进我院的工程数学教学,我们讨论了工科工程数学教学中存在的问题,论述了工科工程数学教学改革的必要性和迫切性,并就工科工程数学教学改革问题提出了我们的看法。 相似文献
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关于高等工科院校设立数学实验课的思考 总被引:2,自引:1,他引:1
全国高等工科院校数学课程指导委员会(简称课委会)所作的《关于工科数学系列课程教学改革的建议》就工科数学教学改革问题作了全面的、深刻的阐述,指明了工科数学教改的必要性,紧迫性和基本思路,提出要加强实践性环节。 相似文献
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浅谈工科工程数学的教学改革 总被引:1,自引:1,他引:0
为了改进我院的工程数学教学。我们讨论了工科工程数学教学中存在的问题.论述了工科工程数学教学改革的必要性和迫切性,并就工科工程数学教学改革问题提出了我们的看法。 相似文献
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本介绍了在工科数学教育中引入数学建模技术的教学方法,教学组织及教学案例,是多年工科数学教学的经验总结。 相似文献
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关于工科数学素质教育的思考@胡启旭¥武汉食品工业学院关于工科数学素质教育的思考胡启旭(武汉食品工业学院,武汉430022)世界科学技术的飞速发展和现代计算技术的广泛应用,对工科数学教学提出了新的要求。为了培养跨世纪的高级工程技术人才,必须转变教育思想,使工... 相似文献
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随着现代科学技术,特别是高新技术的迅猛发展,对现代科技人才的数学知识、能力、素养方面都提出了更高的要求。而我们目前工科数学的教学几乎仍然是四、五十年代的面貌,这种传统的工科数学教育已经不能适应飞速发展的科学技术的需要,工科数学教学改革势在必行。 相似文献
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Marcelo C. Borba 《ZDM》2012,44(6):801-814
This paper begins by situating online mathematics education in Brazil within the context of research on digital technology over the past 25?years. I argue that Brazilian research on technology in mathematics education can be divided into four phases, and then present an example that ??blends?? aspects of the second and third phases. Phase two can be characterized by research with software designed to address traditional mathematics topics, such as functions, while the third phase is characterized by online courses. The data presented show creative solutions for a problem designed for collectives of humans-with-function-software. The paper is analyzed from a perspective that emphasizes the role of different technologies as teachers and professors collaborate to produce knowledge about the use of mathematical software in regular face-to-face classrooms. A model of online education is presented. Finally, the paper discusses how technology may change collaboration and teaching approaches in continuing education, as it allows for greater integration of online learning with teachers?? classroom activities in schools. In this case, the online platform plays an active role in the learning collective composed of humans-with-media. 相似文献
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Erminia Pedretti 《School science and mathematics》1996,96(8):432-440
This article describes the experiences of six science teachers and a facilitator (the author) involved in an action research group in science, technology and society (STS) education. Two strands of research have informed the evolution of this action research project. The first strand comes from an interest in science, technology and society education, while the second strand emerges from the literature on action research as a possible means of accomplishing some of the goals articulated by STS advocates. Therefore, the purposes of this paper are two-fold. First, the paper explores the genesis of an issues-based model for STS education and curriculum development created by the teachers and facilitator of the action research group, and briefly highlights applications of this model in a classroom context. Second, action research is examined as a potential tool for professional development in the context of science education. 相似文献
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In the 1990s, handheld technology allowed overcoming infrastructural limitations that had hindered until then the integration of ICT in mathematics education. In this paper, we reflect on this integration of handheld technology from a personal perspective, as well as on the lessons to be learnt from it. The main lesson in our opinion concerns the growing awareness that students’ mathematical thinking is deeply affected by their work with technology in a complex and subtle way. Theories on instrumentation and orchestration make explicit this subtlety and help to design and realise technology-rich mathematics education. As a conclusion, extrapolation of these lessons to a future with mobile multi-functional handheld technology leads to the issues of connectivity and in- and out-of-school collaborative work as major issues for future research. 相似文献
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Michiel Doorman Paul Drijvers Truus Dekker Marja van den Heuvel-Panhuizen Jan de Lange Monica Wijers 《ZDM》2007,39(5-6):405-418
This paper deals with the challenge to establish problem solving as a living domain in mathematics education in The Netherlands. While serious attempts are made to implement a problem-oriented curriculum based on principles of realistic mathematics education with room for modelling and with integrated use of technology, the PISA 2003 results suggest that this has been successful in educational practice only to a limited extent. The main difficulties encountered include institutional factors such as national examinations and textbooks, and issues concerning design and training. One of the main challenges is the design of good problem solving tasks that are original, non-routine and new to the students. It is recommended to pay attention to problem solving in primary education and in textbook series, to exploit the benefits of technology for problem solving activities and to use the schools’ freedom to organize school-based examinations for types of assessment that are more appropriate for problem solving. 相似文献
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Rong‐Ji Chen 《School science and mathematics》2011,111(2):56-67
While the nature of mathematics and the nature of science have received much attention, there is a lack of research on the nature of technology. This study sought to investigate preservice teachers' perceptions about the nature of technology and its role in mathematics education and society. Based on two philosophical theories of technology, the author analyzed 22 preservice teachers' philosophy statements on educational technology and in‐depth interviews with 5 of them. The findings reveal that the teachers had ambiguous notions about the characteristics of technology, which were contingent on contexts of technology use, human–machine relationships, and other factors. However, in most cases, they had an instrumental view of technology and a techno‐centric mindset. Although the participating teachers were encouraged to reflect on broad socio‐cultural issues associated with technology, most of them did not have a linguistic and conceptual framework from which to examine thoroughly how technology might influence human consciousness. As the educational technology and teacher education communities have broadened their understanding of technology and what it takes for an organizational change, preservice teachers need adequate opportunities to explore the pedagogical, epistemological, ontological, and cultural implications of the educational use of technology. 相似文献
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《Change》2012,44(10):36-42
Because of its corporate philosophy and its deep immersion in advanced technology, International Business Machines Corporation has an abiding concern for the further training and education of its 260,000 employees. At any given time in this multinational corporation with $10 billion in annual sales, tens of thousands of employees are engaged in some form of training at 275 education centers. IBM's advanced terminal computer-based education is now available at the majority of the company's 230 branch offices in the U.S. For a pervasive look at IBM's training and education accomplishments, Change's editors talked with Charles R. Bowen, IBM's program director for education development, and William C. Carpenter, an IBM education program consultant. 相似文献
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信息技术与大学数学课程整合正成为当前我国信息技术教育乃至整个教育信息化进程中的一个热点问题,探讨其整合的方式及理论基础是非常必要的.本文首先结合大学数学案例探讨了整合的三种方式:动态的课堂演示型、单机的数学实验型和全交互的网络教学型,其次探讨了整合所依据的四种理论:传播理论、建构主义理论、教学设计理论和系统理论,最后提出了自己对信息技术与大学数学课程整合的一些思考. 相似文献
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Gail E. Fitzsimons 《International Journal of Mathematical Education in Science & Technology》2013,44(3):375-383
In the workplace mathematics and statistics are essential for communication and decision-making. Process workers at lower classifications of skill levels are likely to be confronted with statistical charts and warnings about nonconformity. Mathematics, statistics, and technology education in and for the workplace must take account of the cultural diversity which exists within and between workplaces. The design of generic mathematics, and in some cases statistics, curricula rarely reflect actual workplace practice except at a superficial level. One way of overcoming these problems is for mathematics/statistics educators to work in cooperation with industry, particularly at the local level, in a way that will encourage and support lifelong learning yet remain critical of the uses to which mathematics, statistics, and technology are put. This paper outlines some ways in which to address the challenge of making mathematics, statistics, and technology education take on real meaning within the context of the workplace. 相似文献
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