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1.
Miriam Leuchter Henrik Saalbach Ilonca Hardy 《International Journal of Science Education》2013,35(10):1751-1771
Research on learning and instruction of science has shown that learning environments applied in preschool and primary school rarely makes use of structured learning materials in problem-based environments although these are decisive quality features for promoting conceptual change and scientific reasoning within early science learning. We thus developed and implemented a science learning environment for children in the first years of schooling which contains structured learning materials with the goal of supporting conceptual change concerning the understanding of the floating and sinking of objects and fostering students' scientific reasoning skills. In the present implementation study, we aim to provide a best-practice example of early science learning. The study was conducted with a sample of 15 classes of the first years of schooling and a total of 244 children. Tests were constructed to measure children's conceptual understanding before and after the implementation. Our results reveal a decrease in children's misconceptions from pretest to posttest. After the curriculum, the children were able to produce significantly more correct predictions about the sinking or floating of objects than before the curriculum and also relative to a control group. Moreover, due to the intervention, the explanations given for their predictions implied a more elaborated concept of material kinds. All in all, a well-structured curriculum promoting comparison and scientific reasoning by means of inquiry learning was shown to support children's conceptual change. 相似文献
2.
Ying Tao Mary Oliver Grady Venville 《International Journal of Science and Mathematics Education》2012,10(6):1269-1302
The purpose of this research was to explore the long-term outcomes of either participating or not participating in early childhood science education on grade 6 students?? conceptual understanding of science. The research is situated in a conceptual framework that evokes Piagetian developmental levels as both potential curriculum constraints and potential models of efficacy. The research design was a multiple case study of grade 6 children from 3 schools in China (n?=?140) who started formal science education in the third grade and grade 6 children from 3 matched schools in Australia (n?=?105) who started learning science in kindergarten. The students?? understanding was assessed by a science quiz and an in-depth interview. The data showed that participating children from the high socioeconomic schools in China and Australia had similar understandings of science. Divergence between the medium and low socioeconomic schools, however, indicated that the grounding in early childhood science education in Australia may have placed these children at an advantage. Alternative explanations for the divergence, including the nature of classroom instruction in the two countries, are discussed. 相似文献
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A considerable body of evidence highlights how inquiry-based science can enhance students' epistemic and conceptual understanding of scientific concepts, principles, and theories. However, little is known about how students view themselves as learners of science. In this paper, we explore primary children's images of doing science in school and how they compare themselves with ‘real’ scientists. Data were collected through the use of a questionnaire, drawing activity, and interviews from 161 Grade 4 (ages 9–10) students in Singapore. Results indicate that ‘doing science as conducting hands-on investigations’, ‘doing science as learning from the teacher’, ‘doing science as completing the workbook’, and ‘doing science as a social process’ are the images of learning science in school that most of the students held. In addition, students reported that they need to be well behaved first and foremost, while scientists are more likely to work alone and do things that are dangerous. Moreover, students often viewed themselves as ‘acting like a scientist’ in class, especially when they were doing experiments. Nevertheless, some students reported that they were unlike a scientist because they believed that scientists work alone with dangerous experiments and do not need to listen to the teacher and complete the workbook. These research findings further confirm the earlier argument that young children can make distinctions between school science and ‘real’ science. This study suggests that the teaching of science as inquiry and by inquiry will shape how students view their classroom experiences and their attitudes towards science. 相似文献
5.
Grady Venville 《科学教学研究杂志》2004,41(5):449-480
Although research from a developmental/psychological perspective indicates that many children do not have a scientific understanding of living things, even by the age of 10 years, little research has been conducted about how students learn this science topic in the classroom. This exploratory research used a case‐study design and qualitative data‐collection methods to investigate the process of conceptual change from ontological and social perspectives when Year 1 (5‐ and 6‐year‐old) students were learning about living things. Most students were found to think about living things with either stable, nonscientific or stable, scientific framework theories. Transitional phases of understanding also were identified. Patterns of conceptual change observed over the 5‐week period of instruction included theory change and belief revision as well as reversals in beliefs. The predominant pattern of learning, however, was the assimilation of facts and information into the students' preferred framework theory. The social milieu of the classroom context exposed students' scientific and nonscientific beliefs that influenced other individuals in a piecemeal fashion. Children with nonscientific theories of living things were identified as being least able to benefit from socially constructed, scientific knowledge; hence, recommendations are made for teaching that focuses on conceptual change strategies rather than knowledge enrichment. © 2004 Wiley Periodicals, Inc. J Res Sci Teach 41: 449–480, 2004 相似文献
6.
Alison Kelly 《Literacy》2005,39(3):129-134
What can listening to children's ideas about poetry teach us? This article considers ways in which exploring primary‐aged students' perceptions of poetry can inform teachers' work with children. Using strategies from earlier studies in secondary schools, a small‐scale project with Year 6 students revealed their complex and sometimes contradictory ideas. These ideas reflect some of the current debates around the nature of poetry and ways of teaching it. The children's ideas are analysed with critical attention paid to the impact of the view of literacy in England's National Literacy Strategy on the teaching and learning of poetry. 相似文献
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Heidi B. Meindertsma Marijn W. G. van Dijk Henderien W. Steenbeek Paul L. C. van Geert 《Mind, Brain, and Education》2014,8(3):149-158
Intraindividual variability is a key component in explaining children's development and learning. Studying this type of variability on the micro‐timescale can help us understand real‐time constructive processes and the subsequent long‐term development. The aim of this article is to study the process of children's understanding of floating and sinking during one single‐task session. A total of 38 kindergartners were asked to explain the floating or sinking of 14 different objects. The results reveal that the majority of children showed a high degree of intraindividual variability. In general, most children had a decrease in variability of both content and complexity of explanations during one task session and stabilized in both complexity and content toward the end of the task. The analyses indicated that hypothesis testing was not related to changes in children's explanations. These results can be the starting point for further research about change on different, nested timescales. 相似文献
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Lisa Gibbs Jane Nursey Janette Cook Greg Ireton Nathan Alkemade Michelle Roberts H. Colin Gallagher Richard Bryant Karen Block Robyn Molyneaux David Forbes 《Child development》2019,90(4):1402-1412
Social disruption caused by natural disasters often interrupts educational opportunities for children. However, little is known about children's learning in the following years. This study examined change in academic scores for children variably exposed to a major bushfire in Australia. Comparisons were made between children attending high, medium, and low disaster-affected primary schools 2–4 years after the disaster (n = 24,642; 9–12 years). The results showed that in reading and numeracy expected gains from Year 3 to Year 5 scores were reduced in schools with higher levels of bushfire impact. The findings highlight the extended period of academic impact and identify important opportunities for intervention in the education system to enable children to achieve their academic potential. 相似文献
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Okhee Lee David C. Eichinger Charles W. Anderson Glenn D. Berkheimer Theron D. Blakeslee 《科学教学研究杂志》1993,30(3):249-270
The purpose of this study was two-fold: (1) to understand the conceptual frameworks that sixth-grade students use to explain the nature of matter and molecules, and (2) to assess the effectiveness of two alternative curriculum units in promoting students' scientific understanding. The study involved 15 sixth-grade science classes taught by 12 teachers in each of two successive years. Data were collected through paper-and-pencil tests and clinical interviews. The results revealed that students' entering conceptions differed from scientific conceptions in various ways. These differences included molecular conceptions concerning the nature, arrangement, and motion of molecules as well as macroscopic conceptions concerning the nature of matter and its physical changes. The results also showed that the students taught by the revised unit in Year 2 performed significantly better than the students taught by the original commercial curriculum unit in Year 1 for 9 of the 10 conceptual categories. Implications for science teaching and curriculum development are discussed. 相似文献
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Amanda Woods-McConney Mary Colette Oliver Andrew McConney Renato Schibeci Dorit Maor 《International Journal of Science Education》2013,35(10):1588-1608
Given international concerns about students' pursuit (or more correctly, non-pursuit) of courses and careers in science, technology, engineering and mathematics, this study is about achieving a better understanding of factors related to high school students' engagement in science. The study builds on previous secondary analyses of Programme for International Student Assessment (PISA) datasets for New Zealand and Australia. For the current study, we compared patterns of science engagement and science literacy for male and female students in Canada and Australia. The study's secondary analysis revealed that for all PISA measures included under the conceptual umbrella of engagement in science (i.e. interest, enjoyment, valuing, self-efficacy, self-concept and motivation), 15-year-old students in Australia lagged their Canadian counterparts to varying, albeit modest, degrees. Our retrospective analysis further shows, however, that gender equity in science engagement and science literacy is evident in both Canadian and Australian contexts. Additionally, and consistent with our previous findings for indigenous and non-indigenous students in New Zealand and Australia, we found that for male and female students in both countries, the factor most strongly associated with variations in engagement in science was the extent to which students participate in science activities outside of school. In contrast, and again for both Canadian and Australian students, the factors most strongly associated with science literacy were students' socioeconomic backgrounds, and the amount of formal time spent doing science. The implications of these results for science educators and researchers are discussed. 相似文献
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Graham R. Daniel 《Asia Pacific Journal of Education》2016,36(4):559-569
Parent involvement in family–school partnerships is widely acknowledged as supporting children's schooling outcomes. This involvement, however, reduces as children move through the school grades, and can be lower in families from disadvantaged backgrounds. Teacher facilitation of parent involvement, or teacher outreach, is strongly linked to the establishment and maintenance of parental involvement in these partnerships. An understanding of teacher outreach is therefore necessary to inform the development of effective outreach practice in schools. Drawing on longitudinal data from a nationally representative sample, this research investigated parents' experiences of teacher outreach in the early years of formal schooling. Overall, perceived teacher outreach declined between Year 1 and Year 3. Families from low socio-economic backgrounds reported similar experiences of teacher outreach as families from other backgrounds. Families from Aboriginal and Torres Strait Islander backgrounds experienced lower levels of teacher outreach in both Year 1 and Year 3, and a greater reduction than other families between these years. Families from culturally and linguistically diverse backgrounds experienced lower levels of outreach in Year 1, but a similar level to parents from other backgrounds in Year 3. The implications of these findings for family–school partnership practice, professional learning and further research are considered. 相似文献
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Gary N. Marks 《Educational research; a review for teachers and all concerned with progress in education》2013,55(1):21-40
Background Educational differentiation, or the allocation of students to different types of school or different locations within schools, is a common feature of modern education systems. In most countries, student outcomes vary considerably, both by school and academic location within schools. Purpose The purpose is to ascertain the extent that between- and within-school differences in student performance can be attributed to students' socio-economic background and their home resources. Sample The samples are from the OECD's 2000 Program for International Student Assessment (PISA) study of 15-year-old students' performance in reading, mathematics and science. Data from 30 countries were analysed. The student samples ranged between 2500 (USA) and 30,000 (Canada) students. The samples are representative of the populations of 15-year-old school students in each country. Design and methods Multiple regression analysis was used to ascertain the extent to which between-school differences (measured by intra-class correlations) and within-school differences (measured by the effects of the composite variable ‘academic location’ which comprised grade and school programme) declined when taking into consideration students' socio-economic background and home environment. Results In most countries the intra-class correlations and the effects of academic location declined only marginally. This was especially the case in countries with large between-school differences such as the tracked systems of continental Europe. Conclusions Differences in student performance between and within schools cannot be accounted for by socio-economic background. The study lends some support to the official rational for tracking and other forms of educational differentiation, that the allocation of students to different school types and academic locations within schools is largely based on student ability. 相似文献
14.
We probed the impact of two teaching strategies, guided inquiry and argumentation, on students' conceptual understanding of the conservation of matter. Conservation of matter is a central concept in middle school science curriculum and a prerequisite upon which rests more complex constructs in chemistry. The results indicate that guided inquiry was particularly effective in improving students' conceptual understanding, as evidenced by pre/posttest results and by a skill analysis of in-depth interviews of student dyads. We also discuss how the challenges inherent to educational contexts can undermine the quality and limit the impact of empirical research carried out in many schools. We suggest how these challenges could be met in the emerging infrastructures for change called the Research Schools Network. 相似文献
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In this article we problematize the purpose of teaching science in preschool and the competences preschool teachers need in order to conduct science activities in the classroom. The empirical data were collected through an action research project with five preschool and primary school teachers (K-6). In the first section of this paper we use one situation, a floating–sinking experiment, as an illustration of how two different epistemological perspectives generate different foci on which kind of science teaching competences can be fruitful in preschool settings. In the first perspective, the central goal of science teaching is the development of the children’s conceptual understanding. With this perspective, we found that the science activities with children were unsuccessful, because their thoughts about concepts did not develop as expected, the situation even enhanced a “misconception” concerning density. Moreover, the teacher was unsuccessful in supporting the children’s conceptual learning. The second perspective uses a feminist approach that scrutinizes science, where we investigate if the floating–sinking activity contributes to a feeling of participation in a scientific context for the children and if so how the teacher promotes this inclusion. This second perspective showed that the children’s scientific proficiency benefited from the situation; they had a positive experience with density which was reinforced by the teacher. The children discovered that they had power over their own learning by using an experimental approach. On the basis of these findings, we conclude that there are competences other than subject matter knowledge that are also important when preschool teachers engage children in scientific activities. Through process-oriented work with the teacher group, we identified four concrete skills: paying attention to and using children’s previous experiences; capturing unexpected things that happen at the moment they occur; asking questions that challenge the children and that stimulate further investigation; creating a situated presence, that is, “remaining” in the situation and listening to the children and their explanations. We discuss possible ways to move preschool teachers away from their feelings of inadequacy and poor self-confidence in teaching science by reinforcing this kind of pedagogical content knowledge. 相似文献
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Maria Kallery 《International Journal of Early Years Education》2015,23(1):31-53
In the present study we test the effectiveness of a teaching intervention concerning the phenomenon of floating and sinking as a property of the matter the bodies are made of. The treatment, designed for children aged four to six years, comprises two units of hierarchically sequenced activities. The children experiment with objects having specifically designed characteristics aiming at shifting children's attention from the objects to the material(s) these are made of. Both solid and hollow objects were used. The activities were developed collaboratively by a researcher and early years teachers and were implemented by the teachers of the work group in their own public school classes in a sample of 104 children. Action research processes were used to optimise classroom practices. Teacher preparation took place within the work group before implementation. Concept cartoons were used for the children's final assessment. Analysis of classroom data recorded during the course of the activities showed gradual redirection of the children's attention from the objects to the materials of which they were made. The results of the post-instructional assessment revealed high percentages of pupils understanding the kind of material as the determining factor for the bodies' behaviour in water. 相似文献
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Abstract This paper reports the development and use of three instruments which comprise a comprehensive technique for describing children's perceptions about technology. The instruments are a questionnaire for upper primary school children, a quiz using pictures instead of written items for lower primary school children and, for both age‐groups, a combined writing/drawing activity which complements the questionnaire or quiz. The instruments are designed to cater for children from a range of age levels, provide information helpful to teachers about children's perceptions of technology, and be suitable for use in research. The instruments were trialled in a total of 28 classes in Western Australian schools and construct validity established by examining the pattern of responses between pairs of instruments completed by the same children. The teachers stated that participating in the processes of developing and administering the instruments was useful and gave them valuable information about children's views of technology. 相似文献
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This article explores the conceptual change of students in Grades 10 and 12 in three Australian senior high schools when the teachers included computer multimedia to a greater or lesser extent in their teaching of a genetics course. The study, underpinned by a multidimensional conceptual‐change framework, used an interpretive approach and a case‐based design with multiple data collection methods. Over 4–8 weeks, the students learned genetics in classroom lessons that included BioLogica activities, which feature multiple representations. Results of the online tests and interview tasks revealed that most students improved their understanding of genetics as evidenced in the development of genetics reasoning. However, using Thorley's (1990) status analysis categories, a cross‐case analysis of the gene conceptions of 9 of the 26 students interviewed indicated that only 4 students' postinstructional conceptions were intelligible–plausible–fruitful. Students' conceptual change was consistent with classroom teaching and learning. Findings suggested that multiple representations supported conceptual understanding of genetics but not in all students. It was also shown that status can be a viable hallmark enabling researchers to identify students' conceptual change that would otherwise be less accessible. Thorley's method for analyzing conceptual status is discussed. © 2006 Wiley Periodicals, Inc. J Res Sci Teach 44: 205–235, 2007 相似文献
19.
Cheng Yong Tan Lin Gao Xiaoou Hong Qiongjiang Song 《British Educational Research Journal》2023,49(4):782-832
The present study ascertains the relationship between socioeconomic status (SES) and students' science self-efficacy using data involving 509,182 15-year-old students and 17,678 school principals in 69 countries/regions who participated in the Programme for International Student Assessment (PISA) 2015. Hierarchical linear modelling results show that, after controlling for science teachers' instructional practices (science class disciplinary climate, inquiry-based instruction, teachers' support, direct instruction, provision of feedback, instructional adaptation), school science resources and various student variables (gender, grade levels, type of school programme), SES was related to students' science self-efficacy in the majority of countries/regions (62–68 countries/regions, depending on the SES indicators used). Specifically, SES was related to students' science self-efficacy in a larger number of countries/regions when it was measured using home cultural resources, home educational resources or a composite indicator (economic, social and cultural status) than when it was measured using parental education levels or occupational status. In contrast, students' science self-efficacy was unrelated to the science teachers' instructional practices examined (except inquiry-based instruction) in most of the countries/regions. These results expand our understanding of students' science self-efficacy, as a type of learning motivation, from being a largely psychological attribute to one that is also influenced by social origins such as family SES. They imply that SES may have a larger influence on student achievement than we may have assumed if we include the indirect influence of SES on student achievement via students' self-efficacy. 相似文献
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Previous research has demonstrated the potential of examining log-file data from computer-based assessments to understand student interactions with complex inquiry tasks. Rather than solely providing information about what has been achieved or the accuracy of student responses (product data), students' log files offer additional insights into how the responses were produced (process data). In this study, we examined students' log files to detect patterns of students' interactions with computer-based assessment and to determine whether unique characteristics of these interactions emerge as distinct profiles of inquiry performance. Knowledge about the characteristics of these profiles can shed light on why some students are more successful at solving simulated inquiry tasks than others and how to support student understanding of scientific inquiry through computer-based environments. We analyzed the Norwegian PISA 2015 log-file data, science performance as well as background questionnaire (N = 1,222 students) by focusing on two inquiry tasks, which required scientific reasoning skills: coordinating the effects of multiple variables and coordinating theory and evidence. Using a mixture modeling approach, we identified three distinct profiles of students' inquiry performance: strategic, emergent, and disengaged. These profiles revealed different characteristics of students' exploration behavior, inquiry strategy, time-on-task, and item accuracy. Further analyses showed that students' assignment to these profiles varied according to their demographic characteristics (gender, socio-economic status, and language at home), attitudes (enjoyment in science, self-efficacy, and test anxiety), and science achievement. Although students' profiles on the two inquiry tasks were significantly related, we also found some variations in the proportion of students' transitions between profiles. Our study contributes to understanding how students interact with complex simulated inquiry tasks and showcases how log-file data from PISA 2015 can aid this understanding. 相似文献