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1.
This article reports research from a project set up to implement ‘bridging work’ in science in England. Group interviews of 59 pupils in Year 6 (at the end of primary school) and 48 pupils in Year 7 (at beginning of secondary school) were carried out after pupils had completed bridging work. Twenty‐six of this sample were the same pupils. Semi‐structured interviews were carried out in groups to ascertain: their aspirations and fears concerning secondary science, their reactions to bridging work and their memories of investigations. Year 6 pupils were positive about studying science at secondary school and remained so after transfer. Pupils' reactions to bridging at both ages were very positive. Findings challenge recent critiques of bridging. The lack of progression in pupils' communication about the variables and findings from investigations suggest that the planned progression of work was not recognized by some teachers. Bridging work alone may not guarantee improved progression and continuity in science, but as part of a carefully planned and structured programme of collaboration it has merit. 相似文献
2.
Pupils' perceptions of their experience of school science have rarely been investigated. The aim of the research reported in this paper, therefore, was to document the range of views that pupils held about the school science curriculum, the aspects they found either interesting and/or valuable, and their views about its future content. As such, the research aimed to articulate their views as a contribution to the debate about the future form and function of the school science curriculum. The method adopted to elicit their views was to use focus groups-a methodology that has not been extensively used in the science education research. Reported here are the findings from 20 focus groups conducted with 144 16-year-old pupils in London, Leeds and Birmingham, split both by gender and whether the pupils intended to continue, or not, with the study of science post-16. The findings of this research offer a window into pupils' perspective of school science revealing both their discontents and satisfaction with the existing curriculum. On the negative side, many pupils perceived school science to be a subject dominated by content with too much repetition and too little challenge. From a more positive perspective, pupils saw the study of science as important and were engaged by topics where they could perceive an immediate relevance, practical work, material that was challenging and high-quality teaching. The implications of these findings and the insights they provide for curriculum policy and school science curricula are discussed. 相似文献
3.
Ragnhild Löfgren Viveca Lindberg 《Assessment in Education: Principles, Policy & Practice》2019,26(3):259-277
The starting point for this article is changes in the Swedish assessment system which stated that pupils are to receive grade reports in school year 6 (12–13 years old) during the academic year 2012–2013. Since the 1970s, compulsory school pupils have received their first grade reports in grade 7 and/or 8. The issue here is to present pupils’ narratives about the possible future significance of grade reports in school year 6. Pupils were interviewed about their experiences of getting their first grade reports, and a narrative analysis was conducted. More specifically, we investigated pupils’ conceptions of themselves as pupils and of their future possibilities, as described in their stories of getting their first grade report. The findings show that pupils perceive grades in year 6 differently, showing both adaption and resistance to the new grading discourse. Our conclusion concerns pupils’ learning and well-being when national assessment policies are changed. 相似文献
4.
Martin Braund Mike Driver 《Educational research; a review for teachers and all concerned with progress in education》2013,55(1):77-91
In spite of the introduction of a National Curriculum in UK schools and the improved progression and continuity that it promised, pupils still have problems with learning when they transfer from primary to secondary school. These problems are particularly acute in science. One approach is to provide a programme of ‘bridging work’, focused on practical science, that is started in the primary school and continued in the secondary school. The research reported here explored pupils' perceptions and experiences of science practical work before and after transfer to secondary school. The implications of the findings for the design of bridging work in science are discussed. 相似文献
5.
Dimitra Kokotsaki 《Educational studies》2016,42(2):201-220
This study aims to explore pupils’ affective engagement with school and music during their transition to secondary school. A gender comparison is also being made to ascertain any differences that may exist between boys and girls during this time. A sample of 182 pupils completed two questionnaires (attitudes to school and attitudes to music) three times (at the end of Year 6, at the beginning and end of Year 7). A series of one-way repeated measures analysis of variance tests showed that pupils’ overall attitudes to school dropped significantly from the end of Year 6 to the end of Year 7 with their enjoyment towards school and their satisfaction with the work environment declining. Pupils’ attitudes to music presented a significant fall at the end of Year 7 after a slight improvement at the beginning of secondary school. Girls held consistently more positive attitudes towards school and music than boys. It is suggested that pupils’ attitudes are malleable and responsive to environmental change and, therefore, this problem can be remedied if appropriate interventions are put into place particularly regarding the teacher-pupil relationship and pupils’ perceived autonomy in their learning. 相似文献
6.
K.J. Topping A. Thurston A. Tolmie D. Christie P. Murray E. Karagiannidou 《Research in Science & Technological Education》2013,31(1):91-106
The use of cooperative learning in secondary school is reported – an area of considerable concern given attempts to make secondary schools more interactive and gain higher recruitment to university science courses. In this study the intervention group was 259 pupils aged 12–14 years in nine secondary schools, taught by 12 self‐selected teachers. Comparison pupils came from both intervention and comparison schools (n = 385). Intervention teachers attended three continuing professional development days, in which they received information, engaged with resource packs and involved themselves in cooperative learning. Measures included both general and specific tests of science, attitudes to science, sociometry, self‐esteem, attitudes to cooperative learning and transferable skills (all for pupils) and observation of implementation fidelity. There were increases during cooperative learning in pupil formulation of propositions, explanations and disagreements. Intervened pupils gained in attainment, but comparison pupils gained even more. Pupils who had experienced cooperative learning in primary school had higher pre‐test scores in secondary education irrespective of being in the intervention or comparison group. On sociometry, comparison pupils showed greater affiliation to science work groups for work, but intervention pupils greater affiliation to these groups at break and out of school. Other measures were not significant. The results are discussed in relation to practice and policy implications. 相似文献
7.
Jeff Battersby 《Cambridge Journal of Education》1999,29(3):447-459
Pupils express their disaffection with the school curriculum through their disruptive behaviour, disengagement from the learning process and through under‐achievement in their work. Given that the majority of pupils are in school, in body if not always in mind, then does learning about the environment switch pupils on to learning? This paper considers pupils’ and teachers’ perceptions of the effect that environmental education has on pupils’ attitudes to learning, on their ability to demonstrate positive achievement, on their involvement and cooperation in lessons, on their behaviour and their attitude to school, their community and the world outside school. 相似文献
8.
Katia Lehraus 《Education 3-13》2015,43(1):55-69
This study explored how to integrate cooperative skills training into learning tasks in the area of writing. Cooperative learning sessions, aimed at developing both cooperative and cognitive skills, were created and conducted in two elementary school classes (Grade 2, age 7–8). Pupils’ teamwork interactions were videotaped and analysed. Results show that young pupils were able to work cooperatively on writing tasks (WT) without teacher's help, advocating realisable teaching practices. Interactive dynamics likely to enhance pupils’ involvement in constructive interactions and in WT are documented; this typology could be used as a heuristic tool in future qualitative research. 相似文献
9.
This study looks at the ideas which children have of the particulate model of matter, at the time they start formal science in school. Pupils aged about eleven in three European countries‐‐Greece, Portugal and the UK‐‐were studied using word association tests. In the UK and Portugal the children had received no teaching of the particulate model; in Greece the pupils had received one year of introductory science, containing some teaching of the particulate model. Key words associated with the particulate model were investigated as free associations. In Portugal and the UK there was little or no evidence of particulate ideas in the pupils’ responses. In the Greek data particulate ideas were more in evidence. There were other clear differences in the data from the three countries. Educational and research implications of the findings are discussed. 相似文献
10.
Patrick Barmby Per M. Kind Karen Jones 《International Journal of Science Education》2013,35(8):1075-1093
This study, carried out in England, examined the variation of attitudes towards science over the first three years of secondary schooling and with gender. The study in question was part of an evaluation of the “Lab in a Lorry” project, and involved 932 pupils completing a pre‐measure questionnaire containing items looking at six separate attitude constructs. From these data, two main patterns emerged; pupils’ attitudes towards science declined as they progressed through secondary school, and this decline was more pronounced for female pupils. These conclusions are largely in agreement with previous studies in this field. However, in examining separate attitude constructs, we were also able to identify that the sharpest decline occurred specifically for pupils’ attitude towards learning science in school. Furthermore, using linear regression, we identified that, as pupils progress through school, this construct becomes a greater influence on attitudes towards future participation in science. Therefore, we also concluded that learning science in school is a particular area that needs to be concentrated upon, if we are to improve children’s attitudes towards science. In the final part of the paper, we drew on interview data obtained from 44 pupils involved in the Lab in a Lorry study. Pupils’ comments in these interviews provided further insight into why pupils are “switched off” by school science. We drew out the most prevalent themes that emerged in the interviews, in order to provide further insight into why pupils do not enjoy science in school. 相似文献
11.
《British Educational Research Journal》2006,32(4):583-599
The aim of this article is to explore pupils' preferences for particular types of grouping practices, an area neglected in earlier research focusing on the personal and social outcomes of ability grouping. The sample comprised over 5000 Year 9 pupils (aged 13–14 years) in 45 mixed secondary comprehensive schools in England. The schools represented three levels of ability grouping in the lower school (Years 7 to 9). Pupils responded to a questionnaire which explored the types of grouping that they preferred and the reasons for their choices. The majority of pupils preferred setting, although this was mediated by their set placement, type of school, socio‐economic status and gender. The key reason given for this preference was that it enabled work to be matched to learning needs. The article considers whether there are other ways of achieving this, which avoid the negative social and personal outcomes of setting for some pupils. 相似文献
12.
Pupil talk and discussion are seen as having important social and cognitive outcomes. In science classes, pupils’ collaborative talk supports the construction of meaning and helps examine the status of evidence, theory and knowledge. However, pupil interactive talk in groups is rare in science lessons. The research reported is part of a project to increase the amount of pupil-pupil talk in primary schools through a programme of teaching and professional development. Pupils’ self-reports of the frequency and learning efficacies of talk related activities in science lessons were collected before and after a programme of teaching in 24 schools in one of the most socially and educationally deprived areas of England. Findings showed pupils valued talking about their ideas over listening to those of other pupils. Science talk frequency (STF) was closely correlated with science talk efficacy (STE) and both were positively correlated with pupils’ attitudes to school science. Analysis of covariance (ANCOVA) of the correlation of STF with STE showed values were independent of gender and ability but that school experience was a significant factor. After the teaching programme and, contrary to expectations, the frequency of talk activities in science lessons appeared to have decreased but varied according to class grades. The degree of correlation between STF and STE was stronger after the teaching in over half of the schools. Schools where STF/STE strengthened most as a result of teaching were those involved in an additional initiative to use modelled talk related to industrial contexts. 相似文献
13.
There has been little research exploring pupils' satisfaction with their ability group placement. This article explores the extent to which pupils are happy with their placement, and the reasons they give for wanting to move to another class or set. The sample comprised over 5000 Year 9 pupils (aged 13–14 years) in 45 mixed secondary comprehensive schools in England. The schools represented three levels of ability grouping in the lower school (Years 7 to 9). Pupils responded to a questionnaire which explored their current set placement, their satisfaction with it, and their reasons for wanting to change. A substantial proportion of pupils expressed a wish to change set, most, but not all, in an upward direction, mainly because the level of work was inappropriate. The implications for ability grouping practices in schools are discussed. 相似文献
14.
In this article, the authors argue that secondary school academic subjects should integrate elements of pastoral work into their teaching through the use of collaborative group work. Pupils who are given the opportunity to develop emotionally and socially are more likely to understand each other, which can lead to a reduction of conflict in the classroom. Social and emotional development can be facilitated in normal school lessons, such as science, through structured group work. The evidence shows that pupils do improve their communication and understanding of other pupils in the class, developing their emotional literacy. Further investigation indicates that benefits are sustained and that the class is more cohesive and mutually supportive. 相似文献
15.
In Ireland, new science curricula were introduced at primary and early post-primary levels in 2003, in an effort to reverse declining interest and enrolment in science. This paper reports on a national study that explored first year post-primary students’ experiences of and attitudes towards school science under these new curricula. Data were gathered from 366 pupils using survey and case study approaches. Findings revealed broadly positive attitudes towards post-primary school science, especially the experimental work that is at the heart of the new curriculum. However, it would appear that students were not conducting open-ended investigations or using information and communications technology [ICT] to any great extent; moreover, there was some evidence of traditional teaching methods being utilised. Pupils were highly critical of previous primary school science experiences, reporting a lack of ‘hands-on’ activities, didactic methodologies and, for a significant minority, a paucity of any memorable primary science at all. Improvements in curricular implementation are proposed. 相似文献
16.
Whilst within universities, research on rather than with children/pupils is a well-established methodology, this paper reports on teachers’ responses to a schools and university-based partnership project, ‘Pupils as Research Partners in Primary (PARPP), which works to co-create pupil-led research opportunities for pupils in research projects informed by pupils’ experiences in primary schools. A previous paper, French and Hobbs, [(2017). “‘So How Well Did It Really Go’? Working with Primary School Pupils as Project Evaluators: A Case Study.” TEAN Journal 9 (1): 56–65] reported on how one PARPP project had a beneficial effect on pupils and their school environment. For this paper the project team interviewed a number of teachers whose pupils in the partner schools were involved in the pilot study phase of the project. Specifically, the teachers were interviewed to ascertain if the involvement of pupils, as lead researchers in projects exploring various aspects of the school environment, had impacted on their perceptions of pupil-led research. Findings suggest that the experiences of teachers in schools where PARPP projects had taken place had led them to re-evaluate the practicality and desirability of encouraging pupils to actively to research their school environments. 相似文献
17.
Edgar Jenkins 《Research in Science Education》1992,22(1):224-229
Teacher-conducted assessments of practical skills are a compulsory component of GCSE examinations in science in England and
Wales. The paper presents some of the findings of a research project that investigated this aspect of a science teacher's
work. The project was concerned principally with the ways in which science teachers interpreted and operationalised the policy
decision of central government and examination boards that teachers assume responsibility for the internal assessment of the
practical competence of pupils aged 14–16 preparing for GCSE examinations in science.
Specializations: the social history and politics of school science education 相似文献
18.
The aim of this paper is not to bury practical work in school science but to (once again) reconsider it. We draw on three main areas of discussion: accounts of science and ‘school science work'; teachers and others’ views of the nature of science; and our own data on teachers’ reactions to ‘critical incidents’ and practicals which go wrong. We use this as a basis for re‐thinking the role of practicals. An account of practical work is suggested which has as its main feature diversity rather than a single model or template. Within this diversity we believe that teachers should be open and honest with pupils about which type of practical work they are doing and why. We advocate that students should be made aware of the different kinds of practical work they do and the purposes of this practical work. In short, teachers should explain to students what type of practical work they are doing and why. Our second message is that teachers’ views about the nature of science both inform and are informed by their classroom practices and experiences‐‐especially during lab‐work. To encourage, promote and support critical reflection of these classroom practices and experiences is therefore a vital part of teacher professional development; this in time will promote science curriculum development. 相似文献
19.
This paper explores the idea of informal science education in scientific field laboratory (The Science Field Centre). The experimental group of pupils (N = 153) was experienced with approximately 5-day lasting field trips and experiments in the Field Centre in Slovakia. After finishing the course, two different research methods were used to discover their interest and ideas toward science. Pupils from the experimental group showed significant differences from those that did not experience education in the Field Centre (control group, N = 365). In comparison to the control group, pupils of the experimental group highly preferred book titles that were related to their program in the Field Centre. There were differences between the drawings of ideal school environment from both pupils groups. In the drawings of the experimental group, we found significantly more items connected with the educational environment of the Field Centre (e.g. laboratory equipment, live animals). We suppose field science education would be one of the most effective ways to increase interest of pupils to study science and to invaluable intrinsic motivation at the expense extrinsic motivation. 相似文献
20.
The attitudes of pupils in South Wales to mathematics, English, science and technology were tested using a Likert‐type attitude scale. Pupils were selected from National Curriculum Key Stage 3, specifically Year 9 (age 13‐14 years). Schools were selected by their position in the 1992 National League tables produced by the Welsh Office, the schools being placed into one of four bands. The number of schools involved was 34 and the number of pupils 4263. This represents 15.3% of the total population of school children of age 13‐14 years in the region (Welsh Office, 1993). The results show gender differences in attitudes to English, mathematics, science and technology and some between school differences. The results are subjected to a factor analysis and are discussed in relation to groups of statements reflecting key aspects of each subject scale. 相似文献