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1.
Since 1987, International Co-ordinator of the IEA Computers in Education Study; was national project coordinator for the IEA Second International Mathematics Study and Second International Science Study (1980–85). Co-author of several published studies on the Second International Science Study as well as The Implemented and Attained Mathematics Curriculum: A Comparison of Eighteen Countriesand The Use of Computers in Education Worldwide. 相似文献
2.
在充分考察高师科学教育专业地球科学类课程设置依据的基础上,简单介绍了地球科学学科体系。以此为据,通过考察现阶段我国各高师院校对地学类课程设置的总体情况,发现了一些相关问题。从专业的培养目标、学生的发展、地球科学学科知识的特点入手探讨了地学类课程设置原则、提出了一些相关具体课程与内容设置的建设性意见。 相似文献
3.
大学科技教育课的性质和功能的界定,是该课课程建设需解决的重要理论问题。本界定了大学科技教育课的性质,并阐明了其理由,还重点了大学科技教育课的功能。 相似文献
4.
Panos Kokkotas Panagiotis Piliouras Katerina Malamitsa Efthymios Stamoulis 《Science & Education》2009,18(5):609-629
Our paper presents an in-service primary school teachers’ training program which is based on the idea that the history of
science can play a vital role in promoting the learning of physics. This training program has been developed in the context
of Comenius 2.1 which is a European Union program. This program that we have developed in the University of Athens is based
on socioconstructivist and sociocultural learning principles with the intention of helping teachers to appropriate the basic
knowledge on the issue of falling bodies. Moreover, it has the aim to make explicit through the exploitation of authentic
historical science events, on the above topic (Aristotle’s, Galileo’s and Newton’s theories on falling bodies) the Nature
of Science (NoS), the Nature of Learning (NoL) and the Nature of Teaching (NoT). During the implementation of the program
we have used a variety of teaching strategies (e.g. group work, making of posters, making of concept maps, simulations) that
utilize historical scientific materials on the issue of falling bodies.
Panos Kokkotas is professor at the Pedagogical Department of University of Athens. He teaches Science Education, Multimedia (audio, visual etc.) teaching tools and Museum Education to both initial and in-service teachers. He is also coordinator of the Comenius 2.1 projects entitled (i) “The MAP project” (two years duration—2004–2006) and (ii) “The STeT project (Science Teacher e-Training) (2006–2008). He has α degree in Physics from the University of Athens. His Ph.D. is on science education from the University of Wales. He has taught science in high school, he has been a school consultant for science teachers. He has mainly published in science education. His recent books include Science Education I (Athens, 2000), Science Education II—The constructivist approach to teaching and learning science (Athens, 2002). Additionally he has edited Teaching Approaches to Science Education (Athens, 2000); as wells as he has edited the Greek translations of the book: Words, Science and Learning by Clive Sutton, (Athens, 2002) and also of the book Making Sense of Secondary Science by Driver et al. (Athens, 2000). He is also writer of the following science textbooks: (1) Science textbook for 5th grade of primary school based on constructivism, (2) Science textbook for 6th grade of primary school based on constructivism, Physics Textbooks for students of Upper Secondary Schools as follows: (3) Physics textbook for 16 years old, (4) Physics textbook for 17 years old student, (5) Physics textbook for 18 years old student. He is the Foundation president of the “The Hellenic Union for Science Education (EDIFE)”. Till now the Union has organized two large Conferences with international participation and also many small conferences in Greece. The 2nd Conference of EDIFE organized together with the 2nd IOSTE Symposium in Southern Europe. He is Foundation Editor of the Greek journal: Science Education: Research & Practice. This year he is responsible for the organisation of the 7th International Conference on History of Science in Science Education (Workshop of Experts), having as theme “Adapting Historical Knowledge Production to the Classroom” from Monday July 7th to Friday July 11th, 2008 in Athens. Panagiotis Piliouras is a Ph.D. holder and in 1984 he got his degree in primary education and in 1993 he got his degree in Mathematics. He attended postgraduate studies (M.Sc.) in Science Education at the Pedagogical Department of Primary Education at the University of Athens. From 1985 until 1998 he taught in a primary school. Since 1999 he has been working in the Pedagogical Department of Primary Education at the University of Athens. His current work involves laboratory teaching, in-service teacher-training and design and development educational material and educational multimedia. His research interest is focused on teaching science in a collaborative inquiry mode, social interaction in learning and instruction, methodological questions in the analysis of social activity, sociocultural perspectives to learning and development, and applications of the educational technology. Katerina Malamitsa is a Ph.D. holder from Pedagogical Department of Primary Education at the National University of Athens in the field of “Critical Thinking and Science Education in Primary School”. She got her Bachelor’s Degree as a Teacher in Primary Education in 1984. From 1986 until 1999 she taught in primary schools of Greece. In 2002 she got her Master’s Degree in “Science Education” at the Pedagogical Department of Primary Education at the National University of Athens. From 2006 till now she is a director in a Greek Primary School in Athens. She has participated in national and international conferences in topics concerning Science Education and teaching. She has published papers in Greek scientific journals. She is author of the Science textbooks which are used in the 3rd & 4th grades of Greek Primary School in national level (after evaluation from a scientific committee). Recently she has translated and standardized the “Test of Everyday Reasoning (TER)” & “The California Measure of Mental Motivation (CM3)” (levels 2&3) for the Greek population [Insight Assessment/California Academic Press LLC, 217 La Cruz Avenue, Millbrae, CA 94030, ]. Her main research interests focus on the critical thinking, the Science Education in Primary School, the use of aspects of History of Science in Teaching Science, the teacher training and education, the reflective teacher, the professional development of teachers etc. Efthymios Stamoulis is a PhD Student in the Pedagogical Department of Primary Education at the University of Ioannina. His current work involves laboratory teaching, in-service teacher-training and design and development educational material and educational multimedia. He is a director in primary school in Athens, Greece. 相似文献
| Panos KokkotasEmail: |
Panos Kokkotas is professor at the Pedagogical Department of University of Athens. He teaches Science Education, Multimedia (audio, visual etc.) teaching tools and Museum Education to both initial and in-service teachers. He is also coordinator of the Comenius 2.1 projects entitled (i) “The MAP project” (two years duration—2004–2006) and (ii) “The STeT project (Science Teacher e-Training) (2006–2008). He has α degree in Physics from the University of Athens. His Ph.D. is on science education from the University of Wales. He has taught science in high school, he has been a school consultant for science teachers. He has mainly published in science education. His recent books include Science Education I (Athens, 2000), Science Education II—The constructivist approach to teaching and learning science (Athens, 2002). Additionally he has edited Teaching Approaches to Science Education (Athens, 2000); as wells as he has edited the Greek translations of the book: Words, Science and Learning by Clive Sutton, (Athens, 2002) and also of the book Making Sense of Secondary Science by Driver et al. (Athens, 2000). He is also writer of the following science textbooks: (1) Science textbook for 5th grade of primary school based on constructivism, (2) Science textbook for 6th grade of primary school based on constructivism, Physics Textbooks for students of Upper Secondary Schools as follows: (3) Physics textbook for 16 years old, (4) Physics textbook for 17 years old student, (5) Physics textbook for 18 years old student. He is the Foundation president of the “The Hellenic Union for Science Education (EDIFE)”. Till now the Union has organized two large Conferences with international participation and also many small conferences in Greece. The 2nd Conference of EDIFE organized together with the 2nd IOSTE Symposium in Southern Europe. He is Foundation Editor of the Greek journal: Science Education: Research & Practice. This year he is responsible for the organisation of the 7th International Conference on History of Science in Science Education (Workshop of Experts), having as theme “Adapting Historical Knowledge Production to the Classroom” from Monday July 7th to Friday July 11th, 2008 in Athens. Panagiotis Piliouras is a Ph.D. holder and in 1984 he got his degree in primary education and in 1993 he got his degree in Mathematics. He attended postgraduate studies (M.Sc.) in Science Education at the Pedagogical Department of Primary Education at the University of Athens. From 1985 until 1998 he taught in a primary school. Since 1999 he has been working in the Pedagogical Department of Primary Education at the University of Athens. His current work involves laboratory teaching, in-service teacher-training and design and development educational material and educational multimedia. His research interest is focused on teaching science in a collaborative inquiry mode, social interaction in learning and instruction, methodological questions in the analysis of social activity, sociocultural perspectives to learning and development, and applications of the educational technology. Katerina Malamitsa is a Ph.D. holder from Pedagogical Department of Primary Education at the National University of Athens in the field of “Critical Thinking and Science Education in Primary School”. She got her Bachelor’s Degree as a Teacher in Primary Education in 1984. From 1986 until 1999 she taught in primary schools of Greece. In 2002 she got her Master’s Degree in “Science Education” at the Pedagogical Department of Primary Education at the National University of Athens. From 2006 till now she is a director in a Greek Primary School in Athens. She has participated in national and international conferences in topics concerning Science Education and teaching. She has published papers in Greek scientific journals. She is author of the Science textbooks which are used in the 3rd & 4th grades of Greek Primary School in national level (after evaluation from a scientific committee). Recently she has translated and standardized the “Test of Everyday Reasoning (TER)” & “The California Measure of Mental Motivation (CM3)” (levels 2&3) for the Greek population [Insight Assessment/California Academic Press LLC, 217 La Cruz Avenue, Millbrae, CA 94030, ]. Her main research interests focus on the critical thinking, the Science Education in Primary School, the use of aspects of History of Science in Teaching Science, the teacher training and education, the reflective teacher, the professional development of teachers etc. Efthymios Stamoulis is a PhD Student in the Pedagogical Department of Primary Education at the University of Ioannina. His current work involves laboratory teaching, in-service teacher-training and design and development educational material and educational multimedia. He is a director in primary school in Athens, Greece. 相似文献
5.
该文对美国《国家科学教育标准》提出背景做了说明,并对其基本结构做了评价,包括原则和定义、科学教学标准、科学教师的专业发展标准、科学教育的评估、科学内容标准、科学教育规划标准、科学教育系统标准,最后对标准的特点进行阐述。 相似文献
6.
“教育科学”这一概念,既受中国五四时期“科学”观念和教育学多元化趋势的影响,又受“科玄论战”和“教育崩溃”论争的波及,并与国内教育科学化运动的兴衰密切相关。教育科学概念在中国具有独特的形成过程,受美国实验教育学思潮的影响,在20世纪20年代中国出现“教育科学”概念。此后欧美各国关于“教育科学”的论争被陆续引介到中国。在此过程中,“教育科学”与“教育学”“教育哲学”等相剥离,进入教育学分类,并成为大学的系科建制名称。20世纪上半叶教育学者对“教育科学”概念的认识对中国现代的教育科学概念形态产生了深远影响。中国教育学者对“教育科学”的认识深受“唯科学主义”的影响,在认识过程中受欧美多国熏染,“一名多实”的现象影响了中国教育学的分类,同时这些认识特征也反映了教育学在中国成为独立学科的急切呼唤。 相似文献
7.
8.
Fick Sarah J. McAlister Anne M. Chiu Jennifer L. McElhaney Kevin W. 《Journal of Science Education and Technology》2021,30(5):678-691
Journal of Science Education and Technology - Recent science education reforms, as described in the Framework for K-12 Science Education (NRC, 2012), call for three-dimensional learning that... 相似文献
9.
Öberg Gunilla Campbell Alice Fox Joanne Graves Marcia Ivanochko Tara Matsuchi Linda Mouat Isobel Welsh Ashley 《Science & Education》2022,31(3):787-817
Science & Education - The widespread misperception of science as a deliverer of irrefutable facts, rather than a deliberative process, is undermining public trust in science. Science education... 相似文献
10.
Raising Our Sights: Improving U.S. Achievement in Mathematics and Science John O'Neil for the ASCD Panel on U.S. Achievement in Mathematics and Science Association for Supervision and Curriculum Development (ASCD) 1991 40 pp. $6.50 Ready to Learn: Early Childhood Education and the Public Schools National School Boards Association (NSBA) 1990 48 pp. Developing and Supporting Teachers for Science Education in the Middle Years The National Center for improving Science Education 1990 86 pp. 相似文献
11.
This paper examines the ideology of one the best known figures in science education in the USA, and draws attention to the
relationship between the political climate and curriculum in national curriculum developments. We are mindful of the forces
shaping the schooling of science in Australia, and we present this analysis as an example of the social forces that dominate
education both here and overseas. Paramount is our desire to open the door for a socially responsible Australian school science
experience.
Social Responsibility of Science in Science Education Group.Specializations: sociology of science education, the nature of science and the production of scientific knowledge, comparative science education
and environmental education.
Social Responsibility of Science in Science Education Group.Specializations: comparative education with particular reference to China, the nature of science and the production of scientific knowledge. 相似文献
12.
Samuel A. Spiegel Angelo Collins Penny J. Gilmer 《Journal of Science Teacher Education》1995,6(4):165-174
This article is based on a paper which received the “Innovations in Teaching Science Teachers” award at the 1995 meeting of
the Association for the Education of Teachers in Science. The award is made possible by Delta Education.
This material is based upon work supported in part by a grant from the National Science Foundation (Grant No. 9253170). Any
opinions, findings, and conclusions or recommendations expressed in this article are those of authors and do not necessarily
reflect the views of the National Science Foundation. 相似文献
13.
14.
Mike Joy Jane Sinclair Shanghua Sun Jirarat Sitthiworachart Javier López-González 《Education and Information Technologies》2009,14(2):105-126
The interdisciplinary nature of Computer Science Education as a field of study is a complicating factor when authors are choosing
appropriate journals and conferences for publishing research results. This paper reports a survey of 42 such publications
in order to identify the types of paper frequently accepted for publication in each. We review existing taxonomies developed
for the general fields of Computer Science and Education, and from this starting point, we develop a novel faceted taxonomy,
specifically aimed to help new researchers in the field understand what types of papers are published and where they appear.
Our results confirm previous studies indicating the predominance of practice-based, technology-driven reports. We also observe
certain differences in educational themes between those found in publications grounded in the Computer Science Education corpus
and those emerging from more general Higher Education literature. 相似文献
15.
Karen C. Cohen 《Journal of Science Education and Technology》2006,15(1):1-7
This paper deals with the mission of the Journal of Science Education and Technology; the people who are helping to further this mission; our review philosophy, policies, and electronic review process; and
important information for authors, readers, practitioners, students, and administrators to know. It also includes announcements
about new features in the Journal, and two book series: Innovations in Science Education and Technology and Classics in Science Education and calls for papers and book ideas to be submitted to cohenka@aol.com. 相似文献
16.
科学教育专业是高师院校为适应新时期基础教育改革及培养综合性人才的需求而新设置的专业.本文对科学教育专业课程结构构建与实践进行了分析,并对科学教育专业课程结构存在的问题进行了探索. 相似文献
17.
Price Nancy A. Wells Jennifer G. Granshaw Frank D. 《Journal of Science Education and Technology》2022,31(6):747-766
Journal of Science Education and Technology - A learning experience designed for the Next Generation Science Standards (NGSS) should integrate the Science & Engineering Practices and... 相似文献
18.
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
19.
自20世纪50年代以来,美国青少年科学教育的核心价值和首要目标就开始向科学素养的培养目标转化。通过“2061计划”、国家科学教育标准、SIS教育等改革活动,极大地推动科学素养目标的达成。 相似文献
20.
Reading is a communication process that is crucial to students in science. Printed text materials are the most widely used teacher aids in the classroom. But reading as a major focus of science instruction has been out of favor with the mainstream of science education since the late 1950s. Despite this, few would deny the value of reading skills in a science class. The purpose of the present investigation was to determine how the use of Newsday's Science Education Series Program affected selected ninth-grade students' comprehension of science reading material. Analysis of covariance showed that students with standardized reading and mathematics scores at least two years above grade level who were taught using newspaper science articles alone had Degrees of Reading Power posttest scores higher at the 0.05 level of significance compared to students taught using Newsday's Science Education Series Program or using only the science article's content as part of class lessons. Students with standardized reading and mathematics scores on grade level taught using Newsday's Science Education Series Program had Degrees of Reading Power posttest scores higher at the 0.01 level of significance compared to students taught by either of the other methods. 相似文献