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1.
Miriam Lemmer 《Africa Education Review》2018,15(1):20-37
Science teaching and learning require knowledge about how learning takes place (cognition) and how learners interact with their surroundings (affective and sociocultural factors). The study reported on focussed on learning for understanding of Newton’s second law of motion from a cognitive perspective that takes social factors into account. A cognitive refinement instructional approach (CRIA) was used to organise and sequence learning activities, while students were engaged through inquiry and group work. Students’ real-life experiences were used as starting point of the learning sequence. The efficiency of the sequence was determined with the aid of the Force Concept Inventory (FCI) and complemented with the students’ reflections on the sequence, showing their epistemological preferences. The results indicated that a CRIA aided in constructing more coherent scientific knowledge and enhanced understanding, while reducing misconceptions on the topic. In their reflections, the students acknowledged that experiential and experimental evidence, as well as guided formation of a scientific explanatory framework, are foundational for a deeper understanding of the challenging topic. 相似文献
2.
This study examines Chinese pre-service teachers’ (N?=?30) views on the nature of science (NOS) and how Chinese culture influences their views. Participants were from two teachers’ universities in eastern China. As an exploratory and interpretive study, a scenario-based interview approach was adopted. The results indicated that the participants held unique views about the five key aspects of NOS. Many participants have alternative and contemporary views of NOS, but few possess classical views. In fact, teachers adopted features of the Confucian Doctrine of the Mean either consciously or unconsciously to account for their views of NOS. This research reflects that the Doctrine of the Mean affected Chinese teachers’ views of NOS, making them rather deficient in their understandings of classical NOS. Based on empirical data, it is argued that science teacher training in China should focus on the content and objectives of classical NOS, rather than just teaching contemporary views of NOS. Taking Chinese culture into consideration, science teacher education in China cannot entirely import the strategies of teaching the classical views of NOS from the developed world, but should develop, design and contextualize local strategies that are suitable for the training of Chinese science teachers. Some issues for further investigation of learners’ views of NOS in non-Western contexts are suggested as implications from this study. 相似文献
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Science &; Education - 相似文献
4.
Paolo Manzelli 《International Journal of Science Education》2013,35(3):253-260
Summaries English Before constructing a new curriculum for any level in integrated‐science education, it is very important to establish a basic philosophy of science teaching which reflects a symbiotic relationship between education and the socio‐economic development in a particular country of the world. The curriculum structure of integrated‐science education should broaden the basis of curricular decision and should be designated to follow the expectations of the society in providing professional intellectual training so that education can make a significant contribution to the socio‐economic growth of the country. This basic assumption which established a link between cultural and socio‐economic growth, involves a diversification of the cultural trends of science education which must become appropriate to the economic and historical context of each country in a fast changing world of work. Therefore, by critically removing outside influences in the transmission of scientific knowledge, there should be less uniformity in the context and methods of teaching, and considerable restructuring of education for each country should occur. Thus, considering the historical and geographical differences, a new order in international division of labour would come into being. In such a hypothesis, a research‐oriented integrated curriculum in science education can play a central role (certainly a better one than in the traditional, discipline‐oriented scheme of science teaching) in obtaining an adequate interaction between scientific education and social problems; this is required for modern cultural and economic development of the world. 相似文献
5.
Developing scientifically literate students who understand the socially contextualized nature of science and technology is
a national focus of science education reform. Science educators’ perceptions of risks and benefits of new technologies (such
as biotechnology) may shape their instructional approaches. This study examined the perceived risk of biotechnology of four
groups of science educators: pre-service science teachers, in-service science teachers, biology graduate teaching assistants,
and biology professors (n = 91). Data sources included a survey instrument and card sort task designed to determine the respondents’ structure of risk
perception and factors contributing to this structure. The perceptions of the four educator groups were compared and contrasted
along these dimensions. Results showed that the teacher groups were similar along many aspects of risk perception, but university
professors were more likely to view the more subtle “gray areas” between biotechnology risks. The results are discussed in
the context of understanding teacher risk perception on science pedagogical practice as well as the role of content knowledge
and teaching experience on risk perception formation. 相似文献
6.
Sinan Ozgelen Ozgul Yilmaz-Tuzun Deborah L. Hanuscin 《Research in Science Education》2013,43(4):1551-1570
The purpose of this study was to explore the effect of the inquiry-based and explicit–reflective laboratory instruction on preservice science teachers’ (PSTs) conceptions of the nature of science (NOS) aspects. This study was carried out during the Laboratory Application in Science II course. All 52 preservice elementary science teachers enrolled in the course consented to participate in the study; 37 were female and 15 were male, with a mean age of 22.8 years. All had the same science major background, and all of them were juniors. The course provided meaningful and practical inquiry-based experiences, as well as explicit and reflective instruction about NOS. Each week, a specific NOS aspect was targeted related to the inquiry-based laboratory investigation. The design of the study was qualitative and exploratory in nature. At the beginning of the study, the Views of Nature of Science Questionnaire Version B open-ended questionnaire was applied to explore PSTs’ NOS views. At the end of the semester, the same questionnaire was conducted to determine the impact of the explicit–reflective and inquiry-based laboratory instruction. The results showed that many PSTs improved their views of NOS in each element, although to different degrees. 相似文献
7.
M. J. Martín‐Díaz 《International Journal of Science Education》2013,35(10):1161-1180
The aim of this research is to ascertain teachers’ opinions on what elements of nature of science (NOS) and science–technology–society relationships (STS) should be taught in school science. To this end an adapted version of the questionnaire developed by Osborne et al. is used. Our results show that experts consulted by Osborne et al. and Spanish teachers confer similar importance on the provisional, experimental, and predictive nature of scientific knowledge based on some of the procedures used such as the drawing up of hypotheses and the analysis and interpretation of data. We also look into the relationship between the teachers’ views and their educational background. 1 Results suggest that philosophy teachers are more concerned with the inclusion of NOS and STS topics in science curricula than science teachers, although further studies will be necessary. Some suggestions concerning the university training of science teachers are also discussed. 相似文献
8.
Fatma Yaman 《International Journal of Science and Mathematics Education》2018,16(3):421-442
This study investigates the effect of the science writing heuristic (SWH) approach on the quality of prospective science teachers’ (PSTs) argumentative writing and their understanding of the components of argumentation in the SWH approach and their own learning. Ten SWH approach activities were implemented during the semester. The study was carried out with 31 PSTs. A case study design was used. Data included the SWH approach’s grading rubric and semistructured interviews. While the ANOVA and Bonferroni tests were used to analyze the SWH approach’s grading rubric, content analysis was used to analyze the semistructured interviews conducted with 12 PSTs. The ANOVA results showed a statistical difference among the writing performance of the PSTs (F = 14.493, p < 0.01). The findings gathered from the interviews revealed that the quality of the argumentative writing and research skills of the PSTs increased over time. The PSTs made explicit associations among their beginning questions, data and observations, and claims and evidence, and they made distinctions between their data, observations, and evidence. Multiple representations played an important role in providing evidence to support claims. Moreover, the process of negotiation helped PSTs learn more effectively, and they believed that the argument-based inquiry lab was beneficial to their learning and their future vocational careers as teachers. 相似文献
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10.
This paper is subdivided into two sections: In Part I empirical results of students epistemological conceptions of laws, hypotheses, theories, and models are presented as well as their ideas of the pathway of scientific discovery. These results are discussed in relation to research results of different recent publications. In Part II an outline and analysis of a two-year program for explicitly teaching epistemology in a physics course (grade 11-13) is given. 相似文献
11.
Mehmet Karakas 《Journal of Science Education and Technology》2009,18(2):101-119
Study provides qualitative analysis of data that answers the following research question: how college science faculty teach science and NOS and incorporate aspects of NOS and the history of science into their undergraduate courses? Study concentrates on four cases and more specifically on three introductory science classes and on four instructors who taught those courses. These instructors were chosen as case studies to explore in greater detail what occurs inside introductory science courses in one particular higher institution in the Northeastern United States. Participants’ teaching styles are presented through a combined and detailed presentation of interview data and classroom observations supported with examples from their classroom activities. Constant comparative approach was used in the process of organizing and analyzing data. Findings revealed that participants preferred to use the traditional teacher-centered lecturing as their teaching style and whose main concern was to cover more content, develop the problem solving skills of their students, and who wanted to teach the fundamental principles of their subjects without paying special importance to the NOS aspects. The study also revealed that other variables of teaching science, such as large class size, lack of management and organizational skills, teaching experience, and instructors’ concerns for students’ abilities and motivation are more important for these scientists then teaching for understanding of NOS. 相似文献
12.
Hongming Ma 《Research in Science Education》2009,39(5):701-724
The findings reported in this paper report on an investigation of Chinese people’s understanding of the nature of science
in relation to their conceptualisations of Nature. As an exploratory and interpretive study, it uses semi-structured interviews
with 25 Chinese secondary school science teachers. The paper first presents these teachers’ conceptualisations of Nature,
which were mainly scientifically informed and showed a mixed influence of both traditional and modern Chinese ideas about
Nature. Teachers’ functional understandings of the nature of science were then inferred from their conceptualisations of Nature
and presented from three perspectives: that of science; the strategies and approaches to doing science; and, the status of
scientific knowledge. 相似文献
13.
Assumption of the burden: Science or criticism? 总被引:1,自引:0,他引:1
This article adjudicates the claim to science made by current researchers in speech communication. It argues the point that contemporary research is best characterized as criticism, and that the cause of research in the field would be best advanced if scholars engaged in the enterprise of discourse analysis and conversation analysis regarded themselves as critics and made themselves subject to criticism as such. 相似文献
14.
This paper discusses the nature of the instruments used to assess students' and teachers' conceptions of the nature of science during the last four decades. Two salient points emerge from critically reviewing the various research emphases and associated assessment instruments specifically related to the nature of science. The first is to question the validity of much of the research presented on the grounds that (a) assessment instruments are interpreted in a biased manner, and (b) some assessment instruments appear to be poorly constructed. Although such comments are well founded, it is important to note that the research conclusions were unusually uniform regardless of the particular instrument used in an investigation. The second point is a more critical concern about the traditional paper and pencil approach to the assessment of an individual's understanding of the nature of science. Although not a new insight, discrepancies between the interpretation of a written response to a traditional instrument (e.g., multiple choice assessment) and the intent of the respondent have been well documented. It is suggested that the current educational research shift toward more qualitative, open-ended approaches to assessment of individuals' understanding (of any concept) be applied to the assessment of individuals' nature of science conceptions. 相似文献
15.
Eulsun Seung Lynn A. Bryan Malcolm B. Butler 《Journal of Science Teacher Education》2009,20(2):157-177
The purpose of this study was to investigate changes in preservice teachers’ understanding of the nature of science (NOS)
as a result of four activity-based interventions that represent three instructional approaches used in a middle grades science
methods course. Ten participants’ understanding of NOS and their perceptions about the activity-based interventions were investigated.
Data were collected using open-ended questionnaires and in-depth interviews before and after the interventions. Written artifacts
and recorded group discussions were collected during the interventions. The results of this study showed that inclusion of
various approaches to teaching NOS can contribute to developing preservice teachers’ understanding of NOS. The activities
complemented each other in the teaching of the NOS components. In addition, the preservice teachers perceived that the four
interventions were helpful in improving their understanding of NOS and in preparing them for future teaching. 相似文献
16.
This research examines the problems that religious Jewish science teachers in Israeli high schools have in coping with science subjects (such as geological time) which conflict with their religious beliefs. We do this by characterizing the philosophical approaches within Judaism that such teachers have adopted for dealing with such controversy. Thus, we surveyed 56 religious teachers using a Likert‐type questionnaire developed for this research, as well as interviewed 11 teachers to more deeply probe their approaches. In addition, we surveyed 15 religious scientists, so that we could both contrast their views with our teacher samples as well as to better understand their coping strategies when confronted by scientific topics that challenge their beliefs. Results indicated that no single philosophical approach earned overwhelming support from the teachers or scientists. Instead, most of the subjects relate separately to each source of possible conflict in accordance with the philosophical approach that appears to be the most fruitful for resolving such conflicts. Moreover, both the scientists and the teachers felt less conflicted toward the specific subject of geological time, in comparison to issues connected to creation of the earth and (especially) evolution. The teachers did differ from the scientists in their preference toward philosophical approaches which help them better integrate the domains of science and religion. Based on our findings, we are able to suggest a set of strategies to help teachers overcome their difficulties in teaching ‘controversial’ science topics to a religiously oriented student population. 相似文献
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18.
M. B. Ormerod 《International Journal of Science Education》2013,35(2):177-190
Summaries English Attitude statements, mostly concerned with the social implications of science, were administered to 2100 pupils of age 14+. The sample was divided into the top 25oO ('GCE') and the next 30‐40oo ('REST') of the ability range and further divided by sex and by coeducation and single‐sex education. Factor analysis yielded measures of five independent attitudes to (1) science as a school subject (SUBATT) and to its implications (SOCATT) regarding (2) aesthetic/humanitarian issues; (3) practical benefits (4) value to the state for money invested (S) the activities of scientists. The attitude scores were correlated with the biology, chemistry and physics choices made at this age and with liking for these subjects’ teachers. There were 26/60 significant but low overall correlations with physics and chemistry choices, but only 5/30 for biology. A further 26 significant correlations arose either at high or low teacher liking, the former predominating with boys and the latter with girls. A Kruskal‐Wallis analysis indicated that some attitudes in the ‘GCE’ group were unaffected by the school attended and possibly derived from the media. Adverse attitudes to the social implications of science may be a factor in the swing away from physical science and technology. 相似文献
19.
Thomas Lessl 《Science & Education》2018,27(7-8):625-636
Scientific inquiry is both theoretical and empirical. It succeeds by bringing thought into productive harmony with the observable universe, and thus, students can attain a robust understanding of the nature of science (NOS) only by developing a balanced appreciation of both these dimensions. In this article, I examine naïve empiricism, a teaching pattern that deters understanding of NOS by attributing to observation scientific achievements that have been wrought by a partnership of thought and empirical experience. My more specific concern is the naïve empiricism promoted when teachers illustrate NOS through historical anecdotes about conflict between science and religion. Since the religious actors depicted in such accounts appear to reject evidence, these narratives lead readers to suppose that scientists draw their conclusions in exactly the opposite way, from empiricism alone. I illustrate this pattern by examining two representative treatments of the Copernican revolution. My methods are historical and critical. 相似文献
20.
Philip M. Sadler Harold Coyle Nancy Cook Smith Jaimie Miller Joel Mintzes Kimberly Tanner John Murray 《CBE life sciences education》2013,12(3):553-575
We report on the development of an item test bank and associated instruments based on the National Research Council (NRC) K–8 life sciences content standards. Utilizing hundreds of studies in the science education research literature on student misconceptions, we constructed 476 unique multiple-choice items that measure the degree to which test takers hold either a misconception or an accepted scientific view. Tested nationally with 30,594 students, following their study of life science, and their 353 teachers, these items reveal a range of interesting results, particularly student difficulties in mastering the NRC standards. Teachers also answered test items and demonstrated a high level of subject matter knowledge reflecting the standards of the grade level at which they teach, but exhibiting few misconceptions of their own. In addition, teachers predicted the difficulty of each item for their students and which of the wrong answers would be the most popular. Teachers were found to generally overestimate their own students’ performance and to have a high level of awareness of the particular misconceptions that their students hold on the K–4 standards, but a low level of awareness of misconceptions related to the 5–8 standards. 相似文献