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1.
The aims of this study were considered under three headings. The first was to elicit misconception that science and physics student teachers (pre-service teachers) had about the terms, ‘‘inertial mass’’, ‘‘gravitational mass’’, ‘‘gravity’’, ‘‘gravitational force’’ and “weight”. The second was to understand how prior learning affected their misconceptions, and whether teachers’ misconceptions affected their students’ learning. The third was to determine the differences between science and physics student teachers’ understanding levels related to mass and gravity, and between their logical thinking ability levels and their attitudes toward physics lessons. A total of 267 science and physics student teachers participated in the study. Data collection instruments included the physics concept test, the logical thinking ability test and physics attitude scale. All instruments were administered to the participants at the end of the 3rd semester of their university years. The physics test consisting of paper and pencil test involving 16 questions was designed, but only four questions were related to mass and gravity; the second test consisted of 10 questions with two stages. The third test however, consisted of 15 likert type items. As a result of the analysis undertaken, it was found that student teachers had serious misconceptions about inertia, gravity, gravitational acceleration, gravitational force and weight concepts. The results also revealed that student teachers generally had positive attitudes toward physics lessons, and their logical thinking level was fairly good.  相似文献   

2.
This paper argues for a renewed focus on statistical reasoning in the beginning school years, with opportunities for children to engage in data modelling. Results are reported from the first year of a 3-year longitudinal study in which three classes of first-grade children (6-year-olds) and their teachers engaged in data modelling activities. The theme of Looking after our Environment, part of the children’s science curriculum, provided the task context. The goals for the two activities addressed here included engaging children in core components of data modelling, namely, selecting attributes, structuring and representing data, identifying variation in data, and making predictions from given data. Results include the various ways in which children represented and re-represented collected data, including attribute selection, and the metarepresentational competence they displayed in doing so. The “data lenses” through which the children dealt with informal inference (variation and prediction) are also reported.  相似文献   

3.
This study compared U.S. and Japanese grade school teachers’ perceptions of the strengths and weaknesses of children in their classrooms identified as fitting commonly used criteria for a learning disability. U.S. teachers identified 4.0 percent of their children as meeting the criteria and Japanese teachers identified 1.5 percent. The teachers then rated these children’s abilities in the areas of listening, speaking, reading/writing, reasoning, mathematics, social, and study skills. Overall, U.S. and Japanese teachers’ rating patterns were similar on 70 percent of the skills. In most areas where significant differences were found—listening, speaking, reading/writing and study skills—U.S. teachers rated higher percentages of their children as “weaker” than Japanese teachers. A noteworthy exception was the area of social skills where Japanese children received higher percentages of “weak” ratings. U.S. and Japanese teachers also differed in their perceptions of causative factors leading to their children’s learning difficulties. We discuss the findings in terms of U.S.-Japanese differences in writing systems and cultural expectations.  相似文献   

4.
This paper reports on a national study that explored primary pupils’ attitudes towards and experiences of school science in the Republic of Ireland. The study focussed on collecting data from children and in doing so recognises the importance of children’s views as an essential part of reviewing curriculum implementation. The findings of this large-scale study are based on an analysis of data gathered from observations of 15 primary classrooms, 1,149 children’s questionnaires and 11 group interviews. In this paper the findings regarding the extent to which the children appear to be engaging in ‘deductive’ (didactic) and ‘inductive’ (inquiry-based) approaches in their science classes, and their attitudes towards school science are presented. Encouragingly, evidence from all parts of the study revealed that in general Irish children are very positive towards learning science in school and are being provided with some opportunities to engage in hands-on inquiry in science, commonly via group work. However, there were also indications that, for some pupils, hands-on science experiences were infrequent, and for a few did not appear to be happening at all. It was not especially evident that pupils were being afforded opportunities to lead their own scientific investigations. Teacher explanation, teacher demonstration, reading and writing featured frequently in pupils’ responses and while the pupils expressed mixed feelings about these methodologies, one thing was apparent: hands-on inquiry based approaches to science had far greater appeal to the children. The significance of the findings of this study are considered in light of the findings and recommendations from recent national and international reports on inquiry-based approaches in science education.  相似文献   

5.
If children are engaged in science lessons, their learning is likely to be better and, in the long term, careers in science and technology will remain open. Given that attitudes can develop early and be difficult to change, it is important for teachers of younger children to know how to foster engagement in science. This study identified what a cohort of 79 pre-service teachers in England considered to be engaging elementary science lessons and compared their notions with teacher behaviours known to be conducive to engagement. First, all brought beliefs about how to engage children in science lessons to their training. They tended to favour children’s hands-on activity as an effective means of fostering attentive participation in learning, although many had additional ideas. Nevertheless, the means and ends of their ‘pedagogies of engagement’ tended to be simple and narrow. Trainers need to ensure that notions of engagement are wide enough to cope with a variety of teaching situations, as when hands-on experience is not feasible, effective or appropriate. At the same time, teachers will need to recognise that one approach may not suit all learners. Without this, there is the risk that they will lack the skills to engage children in science. Nevertheless, these beliefs could offer a useful starting point for trainers who wish to widen pre-service teachers’ conceptions of engagement and increase their repertoire of teaching behaviours.  相似文献   

6.
Wishing to explore the complexity of the conceptual, didactic and institutional aspects of learning a scientifically defined object of knowledge, we chose to study the link between the personal relation to numeration developed by six-year-old pupils in first grade (“cours préparatoire” the first level of primary school in France), and more particularly, the relationship between the construction of pupils’ relation to the concept of “tens” and the didactic practice of their teachers during the lessons. Our study shows that both teachers establish “strong” didactic contracts, leaving it up to the pupils to develop on their own the capacity of making mathematical decisions and destabilizing the procedure of counting one by one. There is a difference between classes in the articulation of knowledge and know-how. In the ZEP class learning is centered on know-how; in the other class knowledge and know-how are simply juxtaposed, their relationship is never made explicit. The result is that only 4 children out of 42 (the two classes taken together) can work with both. All four belong to the categories of “good” or “very good” students.  相似文献   

7.
Atom Surprise: Using Theatre in Primary Science Education   总被引:1,自引:1,他引:0  
Early exposure to science may have a lifelong effect on children’s attitudes towards science and their motivation to learn science in later life. Out-of-class environments can play a significant role in creating favourable attitudes, while contributing to conceptual learning. Educational science theatre is one form of an out-of-class environment, which has received little research attention. This study aims to describe affective and cognitive learning outcomes of watching such a play and to point to connections between theatrical elements and specific outcomes. “Atom Surprise” is a play portraying several concepts on the topic of matter. A mixed methods approach was adopted to investigate the knowledge and attitudes of children (grades 1–6) from two different school settings who watched the play. Data were gathered using questionnaires and in-depth interviews. Analysis suggested that in both schools children’s knowledge on the topic of matter increased after the play with younger children gaining more conceptual knowledge than their older peers. In the public school girls showed greater gains in conceptual knowledge than boys. No significant changes in students’ general attitudes towards science were found, however, students demonstrated positive changes towards science learning. Theatrical elements that seemed to be important in children’s recollection of the play were the narrative, props and stage effects, and characters. In the children’s memory, science was intertwined with the theatrical elements. Nonetheless, children could distinguish well between scientific facts and the fictive narrative.  相似文献   

8.
Individual recommendation plans (IRP) for student teaching practice were co-constructed with two methods students based on the select application of National Science Teachers Association’s National Standards for Science Teacher Preparation. Methods students completed a resume, an interview on pedagogical preferences, and a learning styles survey to determine the reform-based standards and pedagogical approaches that better fit their personal histories and identity formation as science teachers. Each case was unique with one student better meeting the Standards of “Issues” and “Science in the Community” and the other student better meeting the standards of “Inquiry” and the “Nature of Science”. Student teachers planned and taught lessons based on their IRP and were mostly successful in meeting their prescribed standards and utilizing their preferred pedagogies. However, their success in use of specific strategies supporting their approach was highly dependent upon classroom context. The use of the IRP process as a reflective tool strengthening identity formation and early practice is discussed.  相似文献   

9.
The demographic changes in Greek schools underline the need for reconsidering the way in which migrant pupils move from their everyday culture into the culture of school science (a process known as “cultural border crossing”). Migrant pupils might face difficulties when they attempt to transcend cultural borders and this may influence their progress in science as well as the construction of suitable academic identities as a means of promoting scientific literacy. In the research we present in this paper, adopting the socioculturally driven thesis that learning can be viewed and studied as a meaning-making, collaborative inquiry process, we implemented an action research program (school year 2008–2009) in cooperation with two teachers, in a primary school of Athens with 85% migrant pupils. We examined whether the two teachers, who became gradually acquainted with cross-cultural pedagogy during the project, act towards accommodating the crossing of cultural borders by implementing a variety of inclusive strategies in science teaching. Our findings reveal that both teachers utilized suitable cross-border strategies (strategies concerning the establishment of a collaborative inquiry learning environment, and strategies that were in accordance with a cross-border pedagogy) to help students cross smoothly from their “world” to the “world of science”. A crucial key to the teachers’ expertise was their previous participation in collaborative action research (school years 2004–2006), in which they analyzed their own discourse practices during science lessons in order to establish more collaborative inquiry environments.  相似文献   

10.
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11.
Research in Mexican schools, drawing upon earlier research in the UK, has led to the development and use of a method for describing, comparing and evaluating the particular approaches and interactional strategies used by teachers and learners. Using this method, qualitative and quantitative comparisons are made to distinguish between teachers who use a conventional, formal, directive approach when teaching 5-year-old children mathematical skills (called the “Official” method) and those who use a more interactive, collaborative, supportive, “scaffolded” approach to teach similar classes of children (called the “High Scope” method). In an earlier study, we found more competent and independent problem-solving among High/Scope pupils than among their peers taught by the Official method. In the present study, discourse analysis and statistical analysis of the relative frequencies of types of teacher-pupil interaction in the classrooms of two “Official” teachers and two “High’ Scope” teachers are used to explain the improved problem-solving of the “High Scope” pupils. The findings support the view that by creating a more collaborative, scaffolded version of classroom education, teachers can more successfully enable children to develop their own problem-solving skills, learning strategies and curriculum-related understanding. The research also contributes to the development and implementation of methods for promoting a more effective style of teacher-learner interaction in the classroom.  相似文献   

12.
In this article, we consider the complex and dynamic inter-relationships between individual science teachers, the social space of their work and their dispositions towards teacher leadership. Research into the representation of school science departments through individual science teachers is scarce. We explore the representations of four individual teachers to the assertions of teacher leadership proposed by Silva et al. (Teach Coll Rec, 102(4):779–804, 2000). These representations, expressed during regular science department meetings, occur in the social space of Bourdieu’s “field” and are a reflection of the “game” of science education being played within the department. This departmentally centred space suggests an important implication when considering the relationship between subject departments and their schools. The development of an individual’s representation of teacher leadership and the wider “field” of science education appears to shape the individual towards promoting their own sense of identity as a teacher of science, rather than as a teacher within a school. Our work suggests that for these individuals, the important “game” is science education, not school improvement. Consequently, the subject department may be a missing link between efforts to improve schools and current organizational practices.  相似文献   

13.
This paper explores Mexican–American prospective teachers’ use of culture—defined as social practices and shared experiences—as an instructional resource in mathematics. The setting is an after-school mathematics program for the children of Mexican heritage. Qualitative analysis of the prospective teachers’ and children’s interactions reveals that the nature of the mathematical activities affected how culture was used. When working on the “binder activities,” prospective teachers used culture only in non-mathematical contexts. When working on the “recipes project,” however, culture was used as a resource in mathematical contexts. Implications for the mathematics teacher preparation of Latinas/os are discussed.  相似文献   

14.
The purpose of the present study was to examine the predictive value of a dynamic test of English and French lexical specificity on at-risk reading classification in 13 at-risk and 44 not at-risk emerging English (L1)–French (L2) bilingual Grade 1 children (M = 75.87 months, SD = 3.18) enrolled in an early French immersion program in Canada. Lexical specificity was assessed with a computerized word learning game in which children were taught new English (e.g., “foal” and “sole”) and French (e.g., bac “bin” and bague “ring”) word pairs contrasted by minimal phonological differences. The results indicated that the dynamic test of lexical specificity in English contributed significantly to the prediction of children’s French at-risk reading status at the end of Grade 1 after controlling for French phonological awareness and nonverbal reasoning skills. However, French lexical specificity did not predict children’s reading risk classification in French after controlling for French phonological awareness. Thus, it may be feasible to identify at-risk status in emerging bilinguals using dynamic measures in their stronger language.  相似文献   

15.
Though research has shown that students do not have adequate understandings of nature of science (NOS) by the time they exit high school, there is also evidence that they have not received NOS instruction that would enable them to develop such understandings. How early is “too early” to teach and learn NOS? Are students, particularly young students, not capable of learning NOS due to developmental unreadiness? Or would young children be capable of learning about NOS through appropriate instruction? Young children (Kindergarten through third grade) were interviewed and taught about NOS in a variety of contexts (informal, suburban, and urban) using similar teaching strategies that have been found effective at teaching about NOS with older students. These teaching strategies included explicit decontextualized and contextualized NOS instruction, through the use of children’s literature, debriefings of science lessons, embedded written NOS assessments, and guided inquiries. In each context the researchers interviewed students prior to and after instruction, videotaped science instruction and maintained researcher logs and field notes, collected lesson plans, and copies of student work. The researchers found that in each setting young children did improve their understandings of NOS. Across contexts there were similar understandings of NOS aspects prior to instruction, as well as after instruction. There were also several differences evident across contexts, and across grade levels. However, it is clear that students as young as kindergarten are developmentally capable of conceptualizing NOS when it is taught to them. The authors make recommendations for teaching NOS to young children, and for future studies that explore learning progressions of NOS aspects as students proceed through school.  相似文献   

16.
In this paper we report on teachers’ and students’ participation in authentic science research in out of school time science clubs at elementary schools. In the program four to five teachers worked alongside practicing scientists as part of their research groups. Each teacher facilitated a club with 10–15 students who, by extension, were members of the scientists’ research groups. Over the 3 years of the project nearly 30 teachers and over 500 children participated in the clubs. In this paper we present a case study of teachers and children who worked with an analytic chemist at a major university whose field of research is environmental arsenic. We illustrate how the professor mentored the teachers and how they in turn mentored the children. We show how the elementary school teachers who had very little formal science education gained the expertise needed to mentor the children. We found that in less than one academic year the teachers were able to gain the knowledge and skills to facilitate the children’s legitimate participation in authentic scientific research; and that the children gained the methodological and intellectual proficiency needed to contribute useful data and findings to the scientist’s research program.  相似文献   

17.
A science teacher and her mentor reflect on their participation in the Learning Research Cycle, a professional learning model that bridges research and practice in both university and public school contexts. Teachers do scientific research in scientists’ laboratories, then bridge their scientific experiences with the design of new classroom learning environments and teacher-driven educational research projects. Science students do scientific research via their teachers’ lessons that bridge laboratory research with classroom learning. Scientists and educational researchers bridge their research interests to create new questions centered on teaching and learning in authentic science learning environments. The authors engaged in this qualitative inquiry present their perspectives on “what goes on,” “what we have learned,” and “what it means to the larger community.”  相似文献   

18.
The aim of this study was to examine how teachers enact the same written algebra curriculum materials in different classes. The study addresses this issue by comparing the types of algebraic activity (Kieran, 2004) enacted in two 7th grade classes taught by the same teacher, using the same textbook. Data sources include lesson observations and an interview with the teacher. The findings show that students in the two classes were offered somewhat different algebraic experiences. At one school, more emphasis was placed on global/meta-level activities (activities that are not exclusive to algebra and suggest general mathematical processes), whereas at the other school, more emphasis was placed on transformational activities (“rule-based” algebraic activities). Analysis of the sources of the differences related to the ways in which the teacher used and enacted the curriculum materials in the two classes revealed that these were linked to the teacher’s attempts to be attentive to the students in the class and to the nature of the students’ work.  相似文献   

19.
In discussions about developmentally appropriate practice, the term “social and cultural context” is typically used to refer to the culture of children, their families, and their community. Those discussions do not usually address the unique cultures children sometimes create among themselves. Those cultures have values, rules, and norms that frequently exclude adults. As outsiders, we teachers often react to children’s created cultures by discounting them as something that interferes with education rather than something we can use. However, teachers can incorporate those cultures into their classrooms in effective ways that can enhance children’s motivation and facilitate learning.  相似文献   

20.
In spite of the widespread adoption of policies on mainstreaming, and more recently on inclusive education for children and young people with special educational needs, little is actually known about the relationship between what teachers think about such policies and the type of learning environments that they provide. In this study in New Zealand, a sample of regular primary school teachers (N= 63) were categorised according to ‘high’, ‘moderate’ or ‘low’ scores on a scale which measures their views on mainstreaming policies and practices. The pupils (N= 1729) of these teachers also completed a scale measuring perceptions of their classroom learning environments. Children taught by teachers who espoused highly positive attitudes towards mainstreaming were found to have significantly higher levels of classroom satisfaction and marginally lower levels of classroom friction than children taught by teachers with less positive attitudes. Implications of these findings are discussed for further research on the role of teacher attitudes in the successful inclusion of children and young people with special needs and for policies on the implementation of effective inclusive practice. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

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