共查询到20条相似文献,搜索用时 31 毫秒
1.
Cultural Studies of Science Education - This mixed-methods research study explored Saudi Arabian elementary science teachers’ perceptions about and conceptualizations of cultural factors... 相似文献
2.
Jennifer Yeo 《Cultural Studies of Science Education》2009,4(4):913-919
What does it mean to understand science? This commentary extends Brown and Kloser’s argument on the role of native language for science learning by exploring the meaning of understanding in school science and discusses the extent that science educators could tolerate adulterated forms of scientific knowledge. Taking the perspective of social semiotics, this commentary looks at the extent that school science can be represented with other discourse practices. It also offers an example to illustrate how everyday language can present potential hindrance to school science learning. 相似文献
3.
This study investigated how preservice teachers develop collective efficacy when preparing lesson plans for a science methods course, and how this collective efficacy changed over time. The data were collected from four preservice science teachers working in a group to fulfil the requirements of the course. Findings revealed that four factors, including collaborative work, sharing the same goal, attitudes towards group work and group cohesion, played an important role in the development of collective efficacy among preservice teachers. The study also showed that collective efficacy improved continuously over the semester. 相似文献
4.
Ying-Yan Lu Hsiang-Ting Chen Larry D. Yore 《International Journal of Science Education》2016,38(13):2174-2196
There appears to be a complex network of cognitive and affective factors that influence students’ decisions to study science and motivate their choices to engage in science-oriented careers. This study explored 330 Taiwanese senior high school students’ awareness of their science teacher’s learning leadership and how it relates to the students’ attitudes toward science and positive thinking. Initial results revealed that the optimism of positive thinking is highly and positively correlated with the future participation in science and learning science in school attitudes toward science and self-concept in science. Moreover, structural equation modelling (SEM) results indicated that the subscale of teachers’ leadership with idealised influence was the most predictive of students’ attitudes toward science (β = .37), and the leadership with laissez-faire was predictive of students’ positive thinking (β = .21). In addition, the interview results were consistent with the quantitative findings. The correlation and SEM results indicate some of the associations and potential relationships amongst the motivational and affective factors studied and students’ attitudes toward and intentions to study science, which will increase their likelihood of future involvement in science careers. 相似文献
5.
There are increasing calls in the science education community for ‘science for citizenship’ as an important goal for the school science curriculum of the 21st century. The potential influence of portrayals of science and scientists in popular culture on the achievement of this goal is explored in this paper through a review of the literature. We develop a framework of important questions citizens ask in considering personal and social decision making in relation to science and technology issues, and how portrayals of science and scientists might contribute to this decision making process. 相似文献
6.
Jaakko Turkka Outi Haatainen Maija Aksela 《International Journal of Science Education》2013,35(10):1403-1419
ABSTRACTNumerous case studies suggest that integrating art and science education could engage students with creative projects and encourage students to express science in multitude of ways. However, little is known about art integration practices in everyday science teaching. With a qualitative e-survey, this study explores the art integration of science teachers (n?=?66). A pedagogical model for science teachers’ art integration emerged from a qualitative content analysis conducted on examples of art integration. In the model, art integration is characterised as integration through content and activities. Whilst the links in the content were facilitated either directly between concepts and ideas or indirectly through themes or artefacts, the integration through activity often connected an activity in one domain and a concept, idea or artefact in the other domain with the exception of some activities that could belong to both domains. Moreover, the examples of art integration in everyday classroom did not include expression of emotions often associated with art. In addition, quantitative part of the survey confirmed that integration is infrequent in all mapped areas. The findings of this study have implications for science teacher education that should offer opportunities for more consistent art integration. 相似文献
7.
8.
Yasemin Özdem Yilmaz Jale Cakiroglu Hamide Ertepinar Sibel Erduran 《International Journal of Science Education》2013,35(11):1443-1464
ABSTRACTArgumentation has been a prominent concern in science education research and a common goal in science curriculum in many countries over the past decade. With reference to this goal, policy documents burden responsibilities on science teachers, such as involving students in dialogues and being guides in students’ spoken or written argumentation. Consequently, teachers’ pedagogical practices regarding argumentation gain importance due to their impact on how they incorporate this practice into their classrooms. In this study, therefore, we investigated the instructional strategies adopted by science teachers for their argumentation-based science teaching. Participants were one elementary science teacher, two chemistry teachers, and four graduate students, who have a background in science education. The study took place during a graduate course, which was aimed at developing science teachers’ theory and pedagogy of argumentation. Data sources included the participants’ video-recorded classroom practices, audio-recorded reflections, post-interviews, and participants’ written materials. The findings revealed three typologies of instructional strategies towards argumentation. They are named as Basic Instructional Strategies for Argumentation, Meta-level Instructional ?St??rategies for ?Argumentation, and Meta-strategic Instructional ?St??rategies for ?Argumentation. In conclusion, the study provided a detailed coding framework for the exploration of science teachers’ instructional practices while they are implementing argumentation-based lessons. 相似文献
9.
Cultural Studies of Science Education - In the Original Publication of the article, second author’s name was misspelt. 相似文献
10.
This project explores conceptual continuity as a framework for understanding students’ native ways of understanding and describing. Conceptual continuity suggests that the relationship between the use of words in one genre and the scientific genre can exist at varying levels of association. This perspective can reveal the varied relationships between ideas explained in everyday or vernacular genres and their association to scientific explanations. We conducted a 2-year study involving 15 high school baseball players’ understanding of the physics involved in baseball. First, we conducted a quantitative assessment of their science understanding by administering a test prior to season one (2006) and season two (2007). Second, we examined the types of linguistic resources students used to explain their understanding. Third, we revisited our data by using conceptual continuity to identify similarities between students’ conceptual understanding in the informal contexts and their similarities to canonical scientific ideas. The results indicated students’ performance on the multiple-choice questions suggested no significant improvement. The qualitative analyses revealed that students were able to accurately explain different components of the idea by using a diversity of scientific and non-scientific genres. These results call attention to the need to reconstruct our vision of science learning to include a more language sensitive approach to teaching and learning. 相似文献
11.
Lynda L. Jenkins 《Cultural Studies of Science Education》2011,6(2):501-508
I respond to Pike and Dunne by exploring the utilization of citizen science in science education. Their results indicate that
students fail to pursue science beyond the secondary level, in part, because of prior educational experiences with science
education. Students lack motivation to pursue degrees and careers in science because they feel science is not relevant to
their lives or they are simply not good at science. With this understanding, the science education community now needs to
move beyond a discussion of the problem and move forward with continued discourse on possible solutions. Science educators
need to focus on developing connections between students’ everyday lives and science so that they will have tangible reasons
for continuing with the lifelong learning of science. In this response, I will show that citizen science as an educational
context holds much promise, respectively. Participation in citizen science projects moves scientific content from the abstract
to the tangible involving students in hands-on, active learning. In addition, if civic projects are centered within their
own communities, then the science becomes relevant to their lives because it is focused on topics in their own backyards. 相似文献
12.
Amal Reda Malkawi Ebtesam Qassim Rababah 《International Journal of Science Education》2018,40(9):961-976
This study investigated the degree that Science and Engineering Practices (SEPs) criteria from the Next Generation Science Standards (NGSS) were included in self-reported teaching practices of twelfth-grade science teachers in Jordan. This study sampled (n?=?315) science teachers recruited from eight different public school directorates. The sample was surveyed using an instrument adapted from Kawasaki (2015). Results found that Jordanian science teachers incorporate (SEPs) in their classroom teaching at only a moderate level. SEPs applied most frequently included ‘using the diagram, table or graphic through instructions to clarify the subject of a new science,’ and to ‘discuss with the students how to interpret the quantitative data from the experiment or investigation’. The practice with the lowest frequency was ‘teach a lesson on interpreting statistics or quantitative data,’ which was moderately applied. No statistically significant differences at (α?=?0.05) were found among these Jordanian science teachers’ self-estimations of (SEP) application into their own teaching according to the study’s demographic variables (specialisation, educational qualification, teaching experience). However, a statistically significant difference at (α?=?0.05) was found among Jordanian high school science teachers’ practice means based on gender, with female teachers using SEPs at a higher rate than male teachers. 相似文献
13.
Deborah Pino-Pasternak Simone Volet 《International Journal of Science Education》2018,40(12):1520-1541
Primary teachers, despite their critical role in fostering student interest in science, lack confidence and have negative attitudes towards teaching science, with this trend starting during initial teacher education. Though research on attitudes towards teaching science is well established, less is known about attitudes towards learning science. In order to advance our understanding in this area, this study mapped the entry and evolution of attitudinal profiles towards learning science of 108 primary education pre-service teachers undertaking a first-year science unit. Participants completed an online survey tapping on self-determination, grade motivation, self-efficacy, difficulty, interest, anxiety and enjoyment in science before the commencement of the unit (T1) and at the end of it (T2). Clustering methods were used to group participants into homogenous attitudinal profiles at both points in time. Subsequently, daughter profile analysis was used to examine qualitative changes in final profiles respective to entry. Four distinct attitudinal profiles were identified with 47% of the participants exhibiting the least favourable profiles at the start of the science unit. Migration (T1 to T2) was more prevalent from the least to the most favourable profiles, however, it did occur in the opposite direction. Findings revealed that, though pre-service teachers increased their confidence in their ability to learn science, their self-determination decreased in all but one of the eight resulting daughter profiles. 相似文献
14.
Jeffrey W. Bloom 《International Journal of Science Education》2013,35(4):401-415
The intent of the present study is to describe preservice elementary teachers’ understanding of science and how certain contextual variables contribute to this understanding. Eighty students in three sections of an elementary science methods course participated in the study by completing a questionnaire. Six questions dealt with knowledge of science, theories and evolution. In addition, a 21‐item rating scale covering various aspects of science and science teaching was included. The major theme arising out of the data is how beliefs affect preservice teachers’ understandings of science. The anthropocentricity in the subjects’ definitions and purposes of science, theories and evolution is the most explicit and pervasive of the beliefs influencing the conceptualizations of science. The often vague and misinformed definitions of theories add a further dimension of how science is perceived. When evolution is introduced, both the anthropocentric view of science and the misunderstood notion of theory come together to confound the subjects’ understanding. When asked about the teaching of evolution, the subjects’ confusion concerning the nature of science becomes strikingly evident. 相似文献
15.
Jennifer DeWitt Louise Archer Ada Mau 《International Journal of Science Education》2016,38(16):2431-2449
As concerns about participation rates in post-compulsory science continue unabated, considerable research efforts have been focused on understanding and addressing the issue, bringing various theoretical lenses to bear on the problem. One such conceptual lens is that of ‘science capital’ (science-related forms of social and cultural capital), which has begun to be explored as a tool for examining differential patterns of aspiration and participation in science. This paper continues this line of work, attempting to further refine our conceptualisation of science capital and to consider potential insights it might offer beyond existing, related constructs. We utilise data from two surveys conducted in England as part of the wider Enterprising Science project, a broader national survey and a more targeted survey, completed by students from schools generally serving more disadvantaged populations. Logistic regression analyses indicated that science capital was more closely related than cultural capital to science aspirations-related outcome variables. In addition, further analyses reflected that particular dimensions of science capital (science literacy, perceived transferability and utility of science, family influences) seem to be more closely related to anticipated future participation and identity in science than others. These patterns held for both data sets. While these findings are generally in alignment with previous research, we suggest that they highlight the potential value of science capital as a distinct conceptual lens, which also carries particular implications for the types of interventions that may prove valuable in considering ways to address disparities in science engagement and participation. 相似文献
16.
Nahum Kipnis 《Science & Education》1996,5(3):277-292
The paper describes the author's experience in using the history of science in teaching physics to science teachers. It was found that history becomes more useful to teachers when explicitly combined with investigative experimentation, which, in turn, can benefit from various uses of the history of science. 相似文献
17.
Mathematics education as a ‘design science’ 总被引:1,自引:0,他引:1
Erich Ch. Wittmann 《Educational Studies in Mathematics》1995,29(4):355-374
Mathematics education (didactics of mathematics) cannot grow without close relationships to mathematics, psychology, pedagogy and other areas. However, there is the risk that by adopting standards, methods and research contexts from other well-established disciplines, the applied nature of mathematics education may be undermined. In order to preserve the specific status and the relative autonomy of mathematics education, the suggestion to conceive of mathematics education as a design science is made.Revised and extended version of the paper Mathematikdidaktik als design science, published inJournal für Mathematikdidaktik 13 (1992), 55–70. I am indebted to Jerry P. Becker, P. Bender, H. Besuden, W. Blum, E. Cohors-Fresenborg, Th.J. Cooney, L. Führer, H.N. Jahnke, A. Kirsch, G.N. Müller, H._Chr. Reichel, H. Schupp, Ch. Selter, H.-J. Vollrath, J. Voigt, G. Walther and H. Winter for critical remarks to earlier drafts. 相似文献
18.
19.
This study investigates the impact of an informal science outreach programme built around theories of identity formation and self-efficacy on middle school girls’ science affinities. A lottery-based, randomised control trial was used to identify programme effects on four science affinity outcomes: science interests, efficacy with science, science attitudes, and science identity. A multivariate analysis of variance demonstrated that programme participants scored higher than their control group peers on weighted composite of post-programme affinity indicators. These results suggest that informal science education may offer a venue through which to support the formation of science identities and efficacy in girls. Implications for including psychosocial support elements into science classroom pedagogy and science education standards are discussed. 相似文献
20.
Rosalind Driver 《International Journal of Science Education》2013,35(5):481-490
This introductory article to the Special Issue of the International Journal of Science Education attempts to review the theoretical contexts for research into children's conceptions in science and to identify future directions for research programmes in this field. 相似文献