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1.
Lucy Avraamidou 《Studies in Science Education》2013,49(2):145-179
Over the past 10?years an increasing number of articles have been published in leading science education journals that report on research about teacher identity and describe interventions that support teacher identity development. My purpose in this review paper is to examine how the construct of science teacher identity has been conceptualised and studied in science education. In doing so, I synthesise the findings of 29 empirical studies on teacher identity within the field of science education in an attempt to respond to the following questions: (a) In what ways have researchers used the construct of teacher identity to examine science teacher learning and development? (b) What approaches to supporting science teacher identity development have been documented in the literature? Following that, I identify gaps and limitations in the existing literature and I offer recommendations for future research in the area of science teacher identity and identity development: (a) studying teacher identity as a process; (b) connecting science teacher identity research and reform recommendations; (c) conducting large-scale, longitudinal and life-history studies; and (d) examining teacher identity enactment in school classrooms. 相似文献
2.
Due to the growing number of students from populations underrepresented in the sciences, there is an intensified need to consider
alternatives to traditional science instruction. Inquiry-based instructional approaches provide promise and possibility for
engaging underrepresented students in the activities of science. However, inquiry-based instruction without culturally relevant
pedagogy and instructional congruency, may not be sufficient to support non-mainstream students in science learning, and may
even serve to challenge students’ cultural ways of knowing. This conceptual paper suggests that aligning reform efforts in
science education to the field of multicultural education would buttress efforts to reach underrepresented student groups
in science. This includes providing culturally relevant instruction and instruction toward making the assumptions of science
explicit, in particular. To this end, this paper draws from literature in multicultural education to propose that deconstructing
science through instruction in NOS may support Latino, African American and English language learning students in science
learning. 相似文献
3.
Felicia M. Moore 《科学教学研究杂志》2008,45(6):684-710
The aim of this study was to understand the positional identity of three African American secondary science teachers. Positional identity was operationally defined in terms of race, ethnicity, economic status, gender, religion, and age. Positional identity was posited to inform why diverse teachers with differing knowledge and experiences in science exist. An analysis of the findings suggested that the teachers' positional identity was defined beyond race, ethnicity and gender. Although the three science teachers came from very similar social backgrounds and were members of the same racial/ethnic group (African American), their positionality manifested itself in different ways: meanings of their life experiences; orientations to professional development; and future career goals in science education. Thus they possessed multiple positional identities that intersected in various ways which resulted in them having different perceptions of the world and subjectivities as science teachers. Implications included addressing positional identity and the creation of professional development models that are framed around incorporating teacher identity in addition to furthering teachers' personal and professional advancement within science education. © 2008 Wiley Periodicals, Inc. J Res Sci Teach 45: 684–710, 2008 相似文献
4.
Learning science through research apprenticeships: A critical review of the literature 总被引:1,自引:0,他引:1
Science education models for secondary and college students as well as K‐12 teachers have been dominated by classroom‐based approaches. Recently, research apprenticeships wherein learners worked with practicing scientists on authentic scientific research have become increasingly popular. The purpose of this critical review of the literature was to review and synthesize empirical studies that have explored learning outcomes associated with research apprenticeships for science learners. We reviewed 53 studies of scientific research apprenticeship experiences for secondary students, undergraduates and teachers, both pre‐service and in‐service. The review explored various learning outcomes associated with participation in research apprenticeships. These outcomes included effects of apprenticeship experiences on participant career aspirations, ideas about the nature of science (NOS), understandings of scientific content, confidence for doing science and intellectual development. The extant literature supported many of the presumed positive associations between apprenticeship experiences and desired learning outcomes, but findings related to some themes (e.g., NOS understandings) supported conflicting conclusions. Implications included importance of the length of the apprenticeship, need to explicitly place attention on desired outcomes, and engagement of participants. © 2009 Wiley Periodicals, Inc. J Res Sci Teach 47:235–256, 2010 相似文献
5.
Professor Dr. Reinders Duit Professor Dr. Peter Häussler Dr. Roland Lauterbach Professor Dr. Helmut Mikelskis Professor Dr. Walter Westphal 《Research in Science Education》1992,22(1):106-113
This paper outlines the design of a physics textbook that addresses issues of gender-inclusive physics teaching, STS and constructivism.
Difficulties of addressing these issues in a textbook for normal classes, which has to compete with other textbooks on the
market will be discussed.
Specializations: constructivist approaches in science education research and practice.
Specializations: gender issues in science instruction.
Specializations: primary education, integrated science.
Specializations: STS, phenomenological oriented physics instruction.
Specializations: peace education within science education. 相似文献
6.
This article is a review of applications of phenomenology, as a philosophy of knowledge and qualitative research approach, to the field of science education (SE). The purpose is to give an overview of work that has been done as well as to assess it and discuss its possibilities of future development. We ask: what attempts for connecting phenomenology and SE do we find in the research literature, and what possible effects could such connections have for teaching and learning? In approaching this field we distinguish between three sources of phenomenological SE: (1) Goethe’s phenomenology of nature; (2) philosophical phenomenology; and (3) anthropological phenomenology. Existing research based on phenomenological approaches is categorised as phenomenology of SE, phenomenology in SE, and phenomenology and SE integrated. Research examples from each category are critically evaluated and discussed. Finally we discuss the question of the relevance of phenomenology to science teaching. Our review indicates that phenomenology has considerable potential as a method for investigating science learning as a holistic process. It also seems that phenomenology and SE meet most fruitfully when phenomenology is done in the classroom, that is, when it is turned into actual efforts for promoting learning. 相似文献
7.
Petra Karvánková 《International Journal of Science Education》2018,40(7):707-722
Pupil research in school lessons in the sense of Inquiry-Based Education (IBE) is one of the constructivist approaches to education. Inquiry strengthens the positive approach of pupils to natural science subjects, encouraging them to study phenomena and processes taking place in the natural environment around them and use the acquired knowledge in their practical life. Geography as a school subject, due to the multidisciplinary nature of geography as a science, is close to natural sciences as well. This is because of the broadness of the subject of geographical studies, the complex (natural and cultural) landscape. The close links of geography to all cross-sectional themes make it a good support for teaching classical science subjects at schools such as mathematics, physics, chemistry or biology, environmental education. Moreover, the field teaching is one of the strong assets of the implementation of IBE in the school geography. Presented case study on the ‘effect of noise on the surroundings’ explores the facts mentioned above, in geography teaching. It verifies the pupils’ knowledge and skills to adopt the basic principles of IBE in the practice. At the same time, it presents the concrete experiences how the children master the individual stages of IBE during the process of education. 相似文献
8.
Mary M. Atwater 《科学教学研究杂志》1996,33(8):821-837
This article focuses on (a) theoretical underpinnings of social constructivism and multicultural education and (b) aspects of social constructivism that can provide frameworks for research in multicultural science education. According to the author, multicultural science education is “a field of inquiry with constructs, methodologies, and processes aimed at providing equitable opportunities for all students to learn quality science.” Multicultural science education research continues to be influenced by class, culture, disability, ethnicity, gender, and different lifestyles; however, another appropriate epistemology for this area of research is social constructivism. The essence of social constructivism and its implications for multicultural science education research includes an understanding of whatever realities might be constructed by individuals from various cultural groups and how these realities can be reconstituted, if necessary, to include a scientific reality. Hence, multicultural science education should be a field of study in which many science education researchers are generating new knowledge. The author strives to persuade other researchers to expand their research and teaching efforts into multicultural science education, a blending of social constructivism with multicultural science education. This blending is illustrated in the final section of this article. © 1996 John Wiley & Sons, Inc. 相似文献
9.
James Donnelly 《Studies in Science Education》2013,49(2):225-254
This article reviews an important but neglected area of the science curriculum: connections with work and the workplace. The first section offers some historical background, arguing that economic and practical relevance has from the beginning been an important theme within science education. The article then undertakes a broader exploration of the intellectual background, usage and meaning of the term vocationalism within education, before turning to vocational themes as they are represented more specifically within research on science education. It then examines the development and contemporary policy significance of vocational provision across the world. This is followed by an account of a specific case: the innovative version of school science currently under development in England, which is occurring under the rubric of ‘applied science’. Finally the article sketches a research agenda for vocationalism within science education, drawing on the themes and issues that have been identified. It suggests that greater attention to this area will contribute to a broadening of the intellectual compass and relevance of science education research. 相似文献
10.
Richard A. Duschl 《科学教学研究杂志》1983,20(8):745-754
Ethnographic research methodologies were used to examine the training of elementary education majors in science in an attempt to gain insight on whether or not their training in science contributes to the apprehension elementary teachers have toward science. The field study consisted of 14 weeks of weekly observations in the elementary education majors science methods class. Interviews with the students and the instructors as well as survey instruments to assess students' preparation in science were used. Two different approaches to the study of science, one content oriented, the other process oriented, may contribute to the students' confusion, insecurity, and avoidance of science. The students' perception that science is learning content, an objective of introductory level science courses, and the science methods class's objectives of teaching science as a process sets up an “antagonistic dilemma” between the two. Such “antagonistic dilemma” may be manifest in the lack of instructional time accorded to science by elementary educators. The type of science experiences an individual encounters influences their perceptions. To offset student perceptions developed in science courses which stress principally content, the students need science experiences which truly represent science as inquiry. New strategies for the training of elementary education majors in science need to be examined. 相似文献
11.
Elisabeth Charron 《科学教学研究杂志》1991,28(7):609-618
During recent decades there has been little research on social or cultural factors affecting science education. Recent literature reviews have indicated that of the studies addressing such factors, most focus on broad sociodemographic variables such as socioeconomic status, gender, ethnicity, and region. There is a need for research that depicts better-differentiated social contexts for science education in their full complexity. Social scientists from several other fields have recently developed a promising model for research in context. Three critical conceptual and methodological strands of the model are discussed, along with their implications for science education research. 相似文献
12.
Shari L. Britner 《科学教学研究杂志》2008,45(8):955-970
The aims of this study were to examine self‐efficacy and other motivation variables among high school science students (n = 502); to determine the degree to which each of the four hypothesized sources of self‐efficacy makes an independent contribution to students' science self‐efficacy beliefs; to examine possible differences between life, physical, and Earth science classes; and to investigate patterns of gender differences that may vary among the fields of science. In Earth science classes, girls earned higher grades and reported stronger science self‐efficacy. In life science classes, girls earned higher grades but did not report stronger self‐efficacy, and did report higher science anxiety. In physical science, there were no gender differences in grades or self‐efficacy, but girls again reported higher levels of science anxiety. For boys across science fields, science self‐efficacy significantly predicted course grades and mastery experiences was the only significant predictor of self‐efficacy. For girls, self‐efficacy was also the strongest predictor of science grade across fields. Mastery experiences significantly predicted self‐efficacy in Earth science for girls, but social persuasions, vicarious experiences, and physiological states were better predictors of science self‐efficacy in life and physical science classes. Results support (Bandura, A., 1997) hypothesized sources of self‐efficacy, previous research findings on self‐efficacy in the domain of science, and validate the suggestion made by Lau and Roeser (2002) to disaggregate data by science field. © 2008 Wiley Periodicals, Inc. J Res Sci Teach 45: 955–970, 2008 相似文献
13.
Mr. Peter Aubusson Associate Professor Joe Relich Mr. Dan Wotherspoon 《Research in Science Education》1991,21(1):10-19
About 100 science teachers in the Sydney Metropolitan West Region were surveyed to determine their professional development
needs and the ways in which these needs could be met. The findings provide a ranking of science teacher perceived professional
development needs, a list of possible incentives to motivate science teachers to complete inservice programs (in priority
order) and an indication of the preferred modes of presentation to meet professional development needs. In general, science
teachers stated a preference for professional development related to modern trends in science education directly related to
classroom practice. In contrast to recommendations from DEET, science teachers indicated a preference for traditional models
of inservice. Data related to preferred mode of inservice indicated significant gender differences.
Specializations: science teacher professional development.
Specializations: educational psychology and research design.
Specialization: constructivist approaches in science education. 相似文献
14.
Young people in countries considered to be at the forefront of gender equity still tend to choose very traditional science subjects and careers. This is particularly the case in science, technology, engineering and mathematics subjects (STEM), which are largely male dominated. This article uses feminist critiques of science and science education to explore the underlying gendered assumptions of a research project aiming to contribute to improving recruitment, retention and gender equity patterns in STEM educations and careers. Much research has been carried out to understand this gender gap phenomenon as well as to suggest measures to reduce its occurrence. A significant portion of this research has focused on detecting the typical “female” and “male” interest in science and has consequently suggested that adjustments be made to science education to cater for these interests. This article argues that adjusting science subjects to match perceived typical girls’ and boys’ interests risks being ineffective, as it contributes to the imposition of stereotyped gender identity formation thereby also imposing the gender differences that these adjustments were intended to overcome. This article also argues that different ways of addressing gender issues in science education themselves reflects different notions of gender and science. Thus in order to reduce gender inequities in science these implicit notions of gender and science have to be made explicit. The article begins with an overview of the current situation regarding gender equity in some so- called gender equal countries. We then present three perspectives from feminist critiques of science on how gender can be seen to impact on science and science education. Thereafter we analyze recommendations from a contemporary research project to explore which of these perspectives is most prevalent. 相似文献
15.
Abstract This paper begins by establishing the existence of a debate in the broader educational community about the nature, meaning and significance of educational research, and its recognition that different approaches to educational research do not simply represent different strategies for data collection but rest on and express different ideologies that implicate different political attitudes among teachers, students, subject‐matters,schools, support agencies and researchers themselves. Evidence can be seen that this debate is beginning to appear in the science education literature and it is believed that the arguments can be extended. It is argued that research in science education and environmental education needs to consider methodology in the political terms of ideology, rather than simply in the technical terms of method and technique. Some of the recent thinking about the politics of method in both science education and environmental education, is then considered briefly and a number of meta‐research questions are proffered that might focus further attention on the political theory of research in these two fields. 相似文献
16.
Sixty-one science supervisors identified 321 teachers, 162 most effective and 159 least effective, in their respective districts. Information was then sought concerning age, gender, teaching field(s), number of preparations, amount of preparation, time, semester hours of undergraduate science preparation, quantity of graduate science preparation, type of teacher education programs, number of weeks of NSF workshop experience, and number of workshops elected for participation. Comparisons of the information gathered between least and most effective teachers were made. There were no differences in any categories except for gender, quantity of NSF institute experiences, and elected in-service experiences in excess of a single day's duration. Many of the factors frequently used to differentiate among teachers do not provide any explanation of the differences between least and most effective teachers of science. 相似文献
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19.
Michal Armoni 《Computer Science Education》2013,23(2-3):101-122
The gap between enrollments in higher education computing programs and the high-tech industry’s demands is widely reported, and is especially prominent for women. Increasing the availability of computer science education in high school is one of the strategies suggested in order to address this gap. We look at the connection between exposure to computer science in high school and pursuing computing in higher education. We also examine the gender gap, in the context of high school computer science education. We show that in Israel, students who took the high-level computer science matriculation exam were more likely to pursue computing in higher education. Regarding the issue of gender, we will show that, in general, in Israel the difference between males and females who take computer science in high school is relatively small, and a larger, though still not very large difference exists only for the highest exam level. In addition, exposing females to high-level computer science in high school has more relative impact on pursuing higher education in computing. 相似文献
20.
Roussel De Carvalho 《Cultural Studies of Science Education》2016,11(2):253-272
Steven Vertovec (2006, 2007) has recently offered a re-interpretation of population diversity in large urban centres due to a considerable increase in immigration patterns in the UK. This complex scenario called superdiversity has been conceptualised to help illuminate significant interactions of variables such as religion, language, gender, age, nationality, labour market and population distribution on a larger scale. The interrelationships of these themes have fundamental implications in a variety of community environments, but especially within our schools. Today, London schools have over 300 languages being spoken by students, all of whom have diverse backgrounds, bringing with them a wealth of experience and, most critically, their own set of religious beliefs. At the same time, Science is a compulsory subject in England’s national curriculum, where it requires teachers to deal with important scientific frameworks about the world; teaching about the origins of the universe, life on Earth, human evolution and other topics, which are often in conflict with students’ religious views. In order to cope with this dynamic and thought-provoking environment, science initial teacher education (SITE)—especially those catering large urban centres—must evolve to equip science teachers with a meaningful understanding of how to handle a superdiverse science classroom, taking the discourse of inclusion beyond its formal boundaries. Thus, this original position paper addresses how the role of SITE may be re-conceptualised and re-framed in light of the immense challenges of superdiversity as well as how science teachers, as enactors of the science curriculum, must adapt to cater to these changes. This is also the first in a series of papers emerging from an empirical research project trying to capture science teacher educators’ own views on religio-scientific issues and their positions on the place of these issues within science teacher education and the science classroom. 相似文献