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1.
Two fundamental questions about science are relevant for science educators: (a) What is the nature of science? and (b) what aspects of nature of science should be taught and learned? They are fundamental because they pertain to how science gets to be framed as a school subject and determines what aspects of it are worthy of inclusion in school science. This conceptual article re-examines extant notions of nature of science and proposes an expanded version of the Family Resemblance Approach (FRA), originally developed by Irzik and Nola (International handbook of research in history, philosophy and science teaching. Springer, Dordrecht, pp 999–1021, 2014) in which they view science as a cognitive-epistemic and as an institutional-social system. The conceptual basis of the expanded FRA is described and justified in this article based on a detailed account published elsewhere (Erduran and Dagher in Reconceptualizing the nature of science for science education: scientific knowledge, practices and other family categories. Springer, Dordrecht, 2014a). The expanded FRA provides a useful framework for organizing science curriculum and instruction and gives rise to generative visual tools that support the implementation of a richer understanding of and about science. The practical implications for this approach have been incorporated into analysis of curriculum policy documents, curriculum implementation resources, textbook analysis and teacher education settings. 相似文献
2.
M. K. Summers 《International Journal of Science Education》2013,35(1):19-27
Summaries English The purpose of this article is to promote awareness of a growing body of literature concerned with the relationship between the epistemology of science and school science education, and to stimulate debate concerning the role such epistemological considerations should play in the professional training of science teachers. First of all, a rationale is provided for the inclusion of the epistemology of science and its relationship to school science education as an essential component on the professional training of all science teachers. This is followed by a review of existing resources for use in science teacher education curricula, and suggestions for new resource material. Finally, a possible curriculum for inclusion in science teacher education programmes is presented. 相似文献
3.
The nature of science (NOS) has a prominent role among the national science education content standards at all grade levels, K–12. Results from a national survey of collegiate science educators indicate the perception that the greatest contributors to preservice teachers’ understanding of the nature of science were science methods courses, research projects, and science content courses. Implications of findings are discussed, including connections to current research concerning teacher preparation for effective NOS classroom teaching and student learning.The Nature of Science course on the authors’ campus was initiated in the early 1990s, has evolved, and remains in the required core curriculum for preservice chemistry, earth science, and physics teacher candidates. It is the capstone for NOS insights. It adds to and refines impressions garnered implicitly from science content courses, the methods course, and, for some, an undergraduate research experience. 相似文献
4.
Liyanage Devangi H. Perera 《International Journal of Science Education》2013,35(18):3021-3041
Although countries worldwide are emphasizing the importance of science education for technological development and global economic competition, comparative findings from standardized international student assessments reveal a huge gap in science scores between developed and developing countries. Certain developed economies too have made little progress in raising science achievement over the past decade. Despite school improvement being placed high on the policy agenda, the results of such actions have been poor. Therefore, there is a need to explore additional ways in which science achievement can be enhanced. This study focuses on the family and examines whether parents' attitudes towards science (how much they value science and the importance they place on it) can influence their children's science achievement. Individual- and school-level data are obtained from the Program for International Student Assessment 2006 survey for 15 Organisation for Economic Co-operation and Development (OECD) and non-OECD countries. Hierarchical linear modelling is employed to estimate the equations. The findings indicate that parents' attitudes towards science have a positive and statistically significant effect on science achievement, after controlling for other important student- and school-level variables. Moreover, students from poor backgrounds appear to benefit from more positive parental science attitudes as much as students from high socioeconomic status, such that equality of student achievement is not affected. This study recommends that schools and teachers encourage parents to play a more pro-active role in their children's science education, as well as educate parents about the importance of science and strategies that can be adopted to support their children's science learning. 相似文献
5.
Barbara L. Nowicki Barbara Sullivan-Watts Minsuk K. Shim Betty Young Robert Pockalny 《Research in Science Education》2013,43(3):1135-1154
Elementary teachers face increasing demands to engage children in authentic science process and argument while simultaneously preparing them with knowledge of science facts, vocabulary, and concepts. This reform is particularly challenging due to concerns that elementary teachers lack adequate science background to teach science accurately. This study examined 81 in-classroom inquiry science lessons for preservice education majors and their cooperating teachers to determine the accuracy of the science content delivered in elementary classrooms. Our results showed that 74 % of experienced teachers and 50 % of student teachers presented science lessons with greater than 90 % accuracy. Eleven of the 81 lessons (9 preservice, 2 cooperating teachers) failed to deliver accurate science content to the class. Science content accuracy was highly correlated with the use of kit-based resources supported with professional development, a preference for teaching science, and grade level. There was no correlation between the accuracy of science content and some common measures of teacher content knowledge (i.e., number of college science courses, science grades, or scores on a general science content test). Our study concluded that when provided with high quality curricular materials and targeted professional development, elementary teachers learn needed science content and present it accurately to their students. 相似文献
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有关“人文学科”的几点辨析 总被引:2,自引:0,他引:2
曾军 《华中科技大学学报(社会科学版)》2001,15(2):121-126
关于“人学科”的辨析可以从三个层面上进行:一是“学科”层面的“人学科”与“自然科学”和“社会科学”的区分;二是“历史”层面的“人学科”与“人主义”的甄别;三是“教育”层面的“人学科教育”和“人主义教育”的差异,章对有关“人学科”的几个相关性概念进行了比较辨析,并在此过程中突显出“人学科”的内涵。 相似文献
8.
Earlier studies [Mallow, J. V. (1994). Gender-related science anxiety: A first binational study. Journal of Science Education and Technology 3: 227–238; Udo, M. K., Ramsey, G. P., Reynolds-Alpert, S., and Mallow, J. V. (2001). Does physics teaching affect gender-based science anxiety? Journal of Science Education and Technology 10: 237–247] of science anxiety in various student cohorts suggested that nonscience majors were highly science anxious (SA), regardless of what science courses they were taking. In this study, we investigated science anxiety in a cohort consisting mostly of nonscience majors taking general education science courses. Regression analysis shows that the leading predictors of science anxiety are (i) nonscience anxiety and (ii) gender, as they were for different cohorts in the earlier studies. We confirm earlier findings that females are more SA than males. Chi-square analysis of acute science anxiety shows an amplification of these differences. We found statistically significant levels of science anxiety in humanities and social science students of both genders, and gender differences in science anxiety, despite the fact that the students were all enrolled in general education science courses specifically designed for nonscience majors. We found acute levels of anxiety in several groups, especially education, nursing, and business majors. We describe specific interventions to alleviate science anxiety. 相似文献
9.
The unique contributions of romanticism and romantic science have been generally ignored or undervalued in history and philosophy of science studies and science education. Although more recent research in history of science has come to delineate the value of both topics for the development of modern science, their merit for the educational field has not been explored. Romanticism was not only an obvious historical period, but a particular state of mind with its own extraordinary emotional sensitivity towards nature. It is especially the latter which we hope to revisit and reclaim for science education. After discussing several key historical contributions, we describe nine characteristics of ‘Romantic Science’ in order to focus on six ideas/possibilities that we believe hold much value for transforming current science education: (1) the emotional sensitivity toward nature, (2) the centrality of sense experience, (3) the importance of “holistic experience”, (4) the importance of the notions of mystery and wonder, (5) the power of science to transform people’s outlook on the natural world, and (6) the importance of the relationship between science and philosophy. It is argued that in view of a pragmatist/utilitarian conception of school science prevalent today the aforementioned ideas (especially the notion of wonder and the poetic/non-analytical mode of knowledge), can provide food for thought for both science teachers and researchers seeking to work out an aesthetic conception, one that complements current approaches such as inquiry science and conceptual change. 相似文献
10.
Kelly Riedinger Gili Marbach-Ad J. Randy McGinnis Emily Hestness Rebecca Pease 《Journal of Science Education and Technology》2011,20(1):51-64
We investigated curricular and pedagogical innovations in an undergraduate science methods course for elementary education
majors at the University of Maryland. The goals of the innovative elementary science methods course included: improving students’
attitudes toward and views of science and science teaching, to model innovative science teaching methods and to encourage
students to continue in teacher education. We redesigned the elementary science methods course to include aspects of informal
science education. The informal science education course features included informal science educator guest speakers, a live
animal demonstration and a virtual field trip. We compared data from a treatment course (n = 72) and a comparison course (n = 26). Data collection included: researchers’ observations, instructors’ reflections, and teacher candidates’ feedback. Teacher
candidate feedback involved interviews and results on a reliable and valid Attitudes and Beliefs about the Nature of and the Teaching of Science instrument. We used complementary methods to analyze the data collected. A key finding of the study was that while benefits
were found in both types of courses, the difference in results underscores the need of identifying the primary purpose for
innovation as a vital component of consideration. 相似文献
11.
This study aims to establish a viable structural model of prospective science teachers' nature of science (NOS) views, which could be used as an analytical tool for understanding the complex relationships between prospective teachers' conceptions of NOS and factors possibly affecting their conceptions. In order to construct such a model, likely factors that might influence prospective teachers' NOS views were hypothesized. These included science process skills; attitudes toward science teaching; academic achievement in pedagogical and science courses; and social, religious, economic, political, aesthetic, and theoretical values. The hypothetical model was then developed and modified using structural equation modeling methodology. The final viable model indicates that attitudes toward science teaching, science process skills, academic achievement in pedagogical courses, religious values, and economic values explain NOS views with low predictive power. 相似文献
12.
Fred N. Finley 《科学教学研究杂志》1983,20(1):47-54
During the past twenty years, research, curriculum development, and instruction in science education have been influenced by Gagne's conception of science processes. This article reports an investigation of the epistomologic foundations of this conception. The results indicate that a commitment to inductive empiricism pervades the presently held view of science processes. A major tenet of this commitment is that conceptual knowledge results from the application of science processes in understanding natural phenomena and solving problems. Criticism of the commitment in light of recent developments in the philosophy of science reveals that there is limited philosophical support for this view. The implication is that if science educators continue to use the presently held view of science processes, the conception needs to be reformulated. Otherwise, there is a clear danger that students will be presented an inaccurate and inadequate view of science processes. The alternative is to view the exact nature of science processes as being dependent upon the conceptual knowledge that is used to understand a particular phenomena or problem. 相似文献
13.
In this article I explore a case for the inclusion of some aspects of critical thinking and of philosophy of science within science education that appeals to two commonly accepted aims of science education. Although motivated by reading Harvey Siegel's Educating Reason (1988), and emerging from his discussion there, the aspects I explore go beyond that discussion. 相似文献
14.
Heather M. Worsham Patricia Friedrichsen Marilyn Soucie Ellen Barnett Motoko Akiba 《Journal of Science Teacher Education》2014,25(1):53-77
Despite the importance of recruiting highly qualified individuals into the science teaching profession, little is known about the effectiveness of particular recruitment strategies. Over 3 years, 34 college science majors and undecided students were recruited into paid internships in informal science settings to consider secondary science teaching as a career. Analysis of interns’ subsequent career plans revealed the internships were not effective in recruiting the interns into the secondary science teacher education program, although many interns thought they might consider becoming teachers later in their lives. Reasons for not pursuing teaching included continued indecisiveness, inflexibility of required plans of study, and concerns about teachers’ pay and classroom management. 相似文献
15.
Nature of science (NOS) is beginning to find its place in the science education in China. In a study which investigated Chinese science teacher educators’ conceptions of teaching NOS to prospective science teachers through semi-structured interviews, five key dimensions emerged from the data. This paper focuses on the dimension, NOS content to be taught to prospective science teachers. Among a total of twenty NOS elements considered by the Chinese science teacher educators to be important ideas to be taught, five were suggested by no less than a half of the educators. They are (1) empirical basis of scientific investigation, (2) logics in scientific investigation, (3) general process of scientific investigation, (4) progressive nature of scientific knowledge, and (5) realist views of mind and natural world. This paper discusses the influence of Marxism, a special socio-cultural factor in China, on Chinese science teacher educators’ conceptions of NOS content to be taught to prospective science teachers. We argue the importance of considering ideological traditions (mainly those in general philosophy and religion) when interpreting views of NOS or its content to be taught in different countries and regions and understanding students’ conceptual ecology of learning NOS. 相似文献
16.
Michael Barnett Heather Wagner Anne Gatling Janice Anderson Meredith Houle Alan Kafka 《Journal of Science Education and Technology》2006,15(2):179-191
Researchers who have investigated the public understanding of science have argued that fictional cinema and television has proven to be particularly effective at blurring the distinction between fact and fiction. The rationale for this study lies in the notion that to teach science effectively, educators need to understand how popular culture influences their students’ perception and understanding of science. Using naturalistic research methods in a diverse middle school we found that students who watched a popular science fiction film, The Core, had a number of misunderstandings of earth science concepts when compared to students who did not watch the movie. We found that a single viewing of a science fiction film can negatively impact student ideas regarding scientific phenomena. Specifically, we found that the film leveraged the scientific authority of the main character, coupled with scientifically correct explanations of some basic earth science, to create a series of plausible, albeit unscientific, ideas that made sense to students. 相似文献
17.
提高公众科学素养与科学教育新理念 总被引:2,自引:0,他引:2
范冬萍 《华南师范大学学报(社会科学版)》2006,(6):9-14
从公众科学素养的调查可见,科学教育仍然是提高公众科学素养的最基本的途径和最主要的手段。因此,科学教育的理念必须符合科学素养内涵与目标的变化与要求。这种新的理念主要是:理解科学的本质,建立科学教育整体性目标;强化通识教育,建立以适应与创新能力为核心价值的教育模式。 相似文献
18.
This study explored the effects that the incorporation of nature of science (NoS) activities in the primary science classroom
had on children’s perceptions and understanding of science. We compared children’s ideas in four classes by inviting them
to talk, draw and write about what science meant to them: two of the classes were taught by ‘NoS’ teachers who had completed
an elective nature of science (NoS) course in the final year of their Bachelor of Education (B.Ed) degree. The ‘non-NoS’ teachers
who did not attend this course taught the other two classes. All four teachers had graduated from the same initial teacher
education institution with similar teaching grades and all had carried out the same science methods course during their B.Ed
programme. We found that children taught by the teachers who had been NoS-trained developed more elaborate notions of nature
of science, as might be expected. More importantly, their reflections on science and their science lessons evidenced a more
in-depth and sophisticated articulation of the scientific process in terms of scientists “trying their best” and “sometimes
getting it wrong” as well as “getting different answers”. Unlike children from non-NoS classes, those who had engaged in and
reflected on NoS activities talked about their own science lessons in the sense of ‘doing science’. These children also expressed
more positive attitudes about their science lessons than those from non-NoS classes. We therefore suggest that there is added value in including NoS activities in the primary science curriculum in that they seem to help children make sense of science and
the scientific process, which could lead to improved attitudes towards school science. We argue that as opposed to considering
the relevance of school science only in terms of children’s experience, relevance should include relevance to the world of
science, and NoS activities can help children to link school science to science itself. 相似文献
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理科教师的科学本质观对科学教育的影响 总被引:4,自引:0,他引:4
梁永平 《山西师大学报(社会科学版)》2006,33(1):119-121
人们对科学本质的认识经历了由科学的“真理观”向科学的“建构观”的转变。不同的科学本质观将直接影响着教师对科学教育目标的不同理解,对科学知识的不同选择,对教学主题的不同设计、教学话语的不同使用,对学生学习的不同评价。教师不同的科学本质观及其教学行为影响着学生的科学本质观的形成,影响着学生对科学内容的理解以及看待问题的思维方式。 相似文献