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1.
Recent studies in educational productivity and effectiveness of schooling have shown that certain factors could be altered within the classroom to result in enhanced achievement and positive attitude towards the study of science. A learner who is not positively disposed to, or has a socio-cultural background that is indifferent to the learning of science would find it hard to learn science effectively. If, as suggested by recent research, the socio-cultural characteristics which children in non-western society bring into the classroom from their environment create a wedge between what they are taught and what they learn, it is plausible to hypothesise that school based alterations of the socio-cultural prior knowledge of the learner could result in school effectiveness. This study attempted to determine whether or not instruction based on a socio-cultural model could significantly alter students' attitudes towards the learning of and achievement in science. The sample consisted of 600 senior secondary year one students (442 boys, 156 girls) from 15 secondary schools in Nigeria. The Socio-Cultural Environment Scale (SCES) and the Biology Achievement Test (BAT) were used to measure the change in attitude and achievement of subjects respectively in a pretest — posttest situation after a six-week treatment. Evidence was found from the study to support the hypothesis that science instruction which deliberately involved the discussion of socio-cultural views about science concepts altered students' attitudes toward the study of science. The finding also indicated that some socio-cultural factors were amenable to alterations in such a way as to promote the subjects' positive attitudes towards the study of science.  相似文献   

2.
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3.
Teacher attitudes affect their instruction such that positive teacher attitudes enhance the teaching and learning process. The purpose of this study was to explore inservice science teachers' views of learning physics within the context of a professional development experience and to investigate the relationship between those views and the teachers' understanding of force and motion concepts. The conceptual understanding pretest results indicate the need for inservice science teacher professional development that focuses on conceptual understanding. The relationship between participants' views and their conceptual understanding at posttest has additional implications for the curriculum for these science teachers' professional development experiences.  相似文献   

4.
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   

5.
Science textbooks are dominant influences behind most secondary science instruction but little is known about teachers' approach to science reading. The purpose of this naturalistic study was to develop and validate a Science and Reading Questionnaire to assess secondary science teachers' attitudes toward science reading and their beliefs or informed opinions about science reading. A survey of 428 British Columbia secondary science teachers was conducted and 215 science teachers responded. Results on a 12-item Likert attitude scale indicated that teachers place high value on reading as an important strategy to promote learning in science and that they generally accept responsibility for teaching content reading skills to science students. Results on a 13-item Likert belief scale indicated that science teachers generally reject the text-driven model of reading, but they usually do not have well-formulated alternative models to guide their teaching practices. Teachers have intuitive beliefs about science reading that partially agree with many research findings, but their beliefs are fragmented and particularly sketchy in regard to the cognitive and metacognitive skills required by readers to learn from science texts. The findings for attitude, belief, and total scales were substantiated by further questions in the Science and Reading Questionnaire regarding classroom practice and by individual interviews and classroom observations of a 15-teacher subsample of the questionnaire respondents.  相似文献   

6.
ABSTRACT

The aim of education is to ensure a holistic development towards knowledge and well-being. Despite exhaustive effort on embedding twenty-first century skills in science teaching, students show lack of interest to learn and pursue their science careers. This present study has attempted to develop an instrument for measuring attitude towards science learning. The purpose was to ensure valid items were identified to measure all aspects of attitude namely affect, behaviour and cognitive. The study of attitude in science will determine the direction on how teaching strategies can be successful in promoting interest in learning. The study has been underpinned from the theories related to Theory of Reasoned Action, Constructivist learning and Connectivism. Samples from three secondary schools were selected based on proportionate stratified random sampling. 350 samples were targeted to respond to self-constructed questionnaires. Confirmatory Factor Analysis (CFA) was employed to prove the hypothesised 5-factor measurement model. The results have supported a model fit with positive interactions between the factors are evident. The study has proven the theoretical contributions which embark on holistic development of an individual to ensure attitude is moulded. The emotional and spiritual aspects of learning are needed to ensure positive contribution to the social dynamic. In this paper, the discussions are elaborated from the standpoints of theories and practical importance. The results have contributed to a theoretical model of science teaching method.  相似文献   

7.
面对大学生英语学习“费时低效”的现象,采用质的研究方法,对两位非英语专业本科毕业生进行访谈,调查分析了非英语专业学生对英语学习的态度和看法、学习动机、学习策略和大学英语教学情况等问题。研究结果表明,被访谈者对英语学习的态度是积极的,但在如何学习和运用之间还存在着一些问题。针对调查结果,该文最后就如何解决“费时低效”的问题提出了几点建议。  相似文献   

8.
Conclusions Beginning student teachers have already acquired very definite views about teaching science before they begin their teacher training course. These views are generally similar to the views espoused by science educators, but are contrary to the classroom practices of many teachers. Their views seem to have origins in what the students perceive to have been meaningful and enjoyable learning experiences for themselves in their own schooling; and to a lesser extent for children they have observed. Female students who have studied more science at high school tend to favour the use of worksheets in experimental work. Several interesting questions arise from these findings: When these students begin to teach as qualified teachers, will they still espouse the same opinions? If so, does that mean that there is a ‘new wave’ of teachers entering the service who are more committed to hands-on activity work than their older colleagues? If not, what aspects of the teacher training process have caused them to change their opinions? Will these present students be using hands-on strategies themselves after they have been teaching for some time? That is, do system and school constraints effectively prevent teachers from using such strategies? Can secondary science teachers do more to influence positively their students' opinions about teaching science, such as engendering more positive attitudes to science, incorporating more hands-on work, and relying less on printed worksheets in laboratory work? This exploratory work has highlighted the concern expressed by Morrissey (1981) in that there is a great need for long term longitudinal studies of student teachers' attitudes to teaching science, with a particular focus on their teaching behaviours after graduation.  相似文献   

9.
This study investigated what 13 secondary science teachers at various nature of science (NOS) instruction implementation levels talked about when they reflected on their teaching. We then determined if differences exist in the quality of those reflections between high, medium, and low NOS implementers. This study sought to answer the following questions: (1) What do teachers talk about when asked general questions about their pedagogy and NOS pedagogy and (2) what qualitative differences, if any, exist within variables across teachers of varying NOS implementation levels? Evidence derived from these teachers’ reflections indicated that self-efficacy and perceptions of general importance for NOS instruction were poor indicators of NOS implementation. However, several factors were associated with the extent that these teachers implemented NOS instruction, including the utility value they hold for NOS teaching, considerations of how people learn, understanding of NOS pedagogy, and their ability to accurately and deeply self-reflect about teaching. Notably, those teachers who effectively implemented the NOS at higher levels value NOS instruction for reasons that transcend immediate instructional objectives. That is, they value teaching NOS for achieving compelling ends realized long after formal schooling (e.g., lifelong socioscientific decision-making for civic reasons), and they deeply reflect about how to teach NOS by drawing from research about how people learn. Low NOS implementers’ simplistic notions and reflections about teaching and learning appeared to be impeding factors to accurate and consistent NOS implementation. This study has implications for science teacher education efforts that promote NOS instruction.  相似文献   

10.
This work describes a 2-year study in teaching school science, based on the stimulation of higher thinking levels in learning science using a highly student-centred and constructivist learning approach. We sought to shift and strengthen students’ positive attitudes towards science learning, self-efficacy towards invention, and achievement. Focusing on an important aspect of student’s positive attitude towards learning, their preference (like/dislike) towards independent study with minimal or no teacher interference, which leads to increased learning autonomy, was investigated. The main research was conducted on elementary school students; 271 grade level one (G1; 6 years old) to grade level four (G4; 10 years old) participated in this study. As a result of this study, it was found that: (1) 73% of the students preferred minimal or no explanation at all, favoring to be left with the challenge of finding out what to do, compared to 20% of the control group, indicating a positive attitude shift in their learning approaches. (2) The experimental group achieved slightly more (9.5% difference) than the control group in knowledge-comprehension-level based exam; however, the experimental group scored much higher (63% difference) in challenging exams which required higher thinking levels. (3) The same trend was also observed in self-efficacy toward invention, where 82% of the experimental group saw themselves as possible inventors compared to 37% of the control group.  相似文献   

11.
Four hundred and fifty‐one students' attitudes towards science were investigated. Two types of instruments (questionnaire and Attitude Scale) were used to collect the data. The results show that the students in general hold a favourable attitude towards science; male students have more positive attitude towards science than female students; the type of school (science‐school, single‐sex school or general secondary school) attended have an effect on the students' attitudes to science. The low enrollment in science is not due to the lack of interest or negative attitudes to the subject but may be due to some other variables that need to be investigated.  相似文献   

12.
The attitudes towards science of upper‐primary students in three ability strands (average, above average, and gifted) were investigated. A total of 580 upper primary students from co‐educational government and government‐aided schools in Singapore were involved in this study. The attitude subscales investigated were enjoyment of science, preference for science careers, and appreciation of the social implications of science. Gender and ability were found to have statistically significant effects on the variations in the mean score for each attitude subscale. Boys, in general, had more positive views about science than girls. Overall, above‐average and gifted students had comparable attitudes towards science; both of them consistently showed more positive attitudes than average ability students. At least 18% of the sample, with greater percentage being boys, reported “not sure” responses in 50% or more of the total attitude items. © 2008 Wiley Periodicals, Inc. J Res Sci Teach 45: 940–954, 2008  相似文献   

13.
This study was conducted to explore the interplay between students’ scientific epistemological beliefs and their perceptions of constructivist learning environments. Through analysing 1,176 Taiwanese tenth-graders’ (16-year-olds) questionnaire responses, this study found that students tended to perceive that actual learning environments were less constructivist orientated than what they preferred. Students having epistemological beliefs more orientated to constructivist views of science (as opposed to empiricist views about science) tended to have a view that actual learning environments did not provide sufficient opportunities for social negotiations (p < 0.01) and prior knowledge integration (p < 0.01); and moreover, they show significantly stronger preferences to learn in the constructivist learning environments where they could (1) interact and negotiate meanings with others (p < 0.001), (2) integrate their prior knowledge and experiences with newly constructed knowledge (p < 0.001) and (3) meaningfully control their learning activities (p < 0.001). The main thrust of the findings drawn from this study indicates that teachers need to be very aware of students’ epistemological orientation towards scientific knowledge, and to complement these preferences when designing learning experiences, especially to provide constructivist-based lessons to enhance science learning for students who are epistemologically constructivist orientated.  相似文献   

14.
Differentiated instruction is a proactive teaching model and philosophy with demonstrated potential to cater for diverse learners and create inclusive classrooms. There is little research, however, into the implementation of this approach in the senior secondary classroom. Teachers’ implementation of differentiated instruction has been shown to be linked to teacher attitudes and self-efficacy in other settings. This study investigated the impact of teachers’ self-efficacy and attitudes towards the implementation of differentiated instruction in the senior secondary context across two Australian states with a total of five participating teachers. The A (Affective) B (Behaviour) C (Cognitive) model was employed to define teacher attitudes from interviews concerning differentiated instruction. Findings indicated that teacher knowledge was a major factor influencing differentiation, in addition to attitude and self-efficacy. The discourse analysis demonstrated that teachers held a greater knowledge of differentiation strategies than the concepts that underpin the differentiated instruction framework. Additionally, time constraints and feelings of failure in implementing differentiation strategies impacted teacher attitudes. Teacher knowledge, attitude and self-efficacy were interrelated and impacted on teachers’ implementation of differentiated instruction in the senior secondary classroom. Implications for professional development to address student needs through differentiated instruction in the inclusive senior secondary classroom teacher are discussed.  相似文献   

15.
The paper discusses children’ attitudes towards school and learning soon after entering primary school in Hungary. First and second grade primary school students (N?=?33) were interviewed. The interviews explored the following questions: What are the teachers’ and the children’s roles in the classroom? What is learning? Where do children learn? What kind of learning strategies do students use in arithmetic and reading? How are students evaluated in the school? What do students like best about school? The data suggest that the children quickly adapt to the school environment and, on the whole, have a positive attitude towards school and learning but—with a few exceptions—their views on the role of schooling in life reflect traditional, school subject centred goals and values and little awareness of the learning process.  相似文献   

16.
The recent development of interactive science centres throughout Britain has provided schools with a potential resource to help provide the science curriculum. This paper explores the role that a schoolbased 'mini-museum', designed to mimic an interactive science centre, may play in young children's science education. The research investigates children's interactions with exhibits and each other in such a 'centre', and suggests that although children did appear to make some gains in their learning of scientific knowledge and scientific skills and processes, the largest gains were made in the development of positive attitudes towards science. This positive attitude towards science provides the classroom teacher with opportunities to build upon the children's new-found enthusiasm and to ensure that they make lasting gains from their interactive experience.  相似文献   

17.
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18.

Unlike many other countries, physics is highly popular in secondary education in Scotland, with large numbers opting for study at the Higher Grade on which entry to higher education is based. This paper reports a project that explored the attitudes and perceptions of Scottish girls and boys towards physics over the age range of 10-18 years old. Towards the end of primary school, attitudes towards science are very positive and both boys and girls are looking forward to studying more science in secondary school, although there is no evidence that the introduction of primary science has been a factor. By the end of the second year of secondary school, these positive attitudes have declined quite markedly and a significant decline of girls' attitudes towards science relative to boys' attitudes was clearly observed. The success of the Standard Grade physics course (a 2-year course taken in third and fourth year, ages 14-16 approximately) is easy to observe in terms of the restoration of positive attitudes of boys and girls again as the pupils move through third and fourth year. This process is especially clearly marked among girls. Surprisingly, over 90 per cent of the observed fourth year pupils wanted to continue studies in physics but a marked decline in attitude is observed during the Higher Grade course (a 1-year course which follows Standard Grade), this being more marked for boys. If the number of girls in physics is an issue for concern within the structure of Scottish system, then the focus of attention should be the structure and nature of the science course in the early secondary school.  相似文献   

19.
A longitudinal study has been conducted to explore the impact of a new language policy for Hong Kong secondary schools on science learning. According to this policy, only schools that recruit the best 25% of students can teach science in English, the students' second language, while the other schools have to teach science in Chinese, the students' native language. The study involved a student cohort of 100 schools starting from S1 for three years. The outcome of science learning is conceptualized as consisting of students' achievement and self-concept in science. This paper reports the possible effects of English-medium instruction (EMI) and Chinese-medium instruction (CMI) on students' self-concept in science, as measured by students' responses to a questionnaire. Comparing with the CMI students, the EMI students showed higher self-concepts in Chinese, English and Mathematics, but a lower self-concept in science. This finding suggests that the EMI students might experience greater learning problems in science than in other subjects, probably because science learning involves abstract thinking and the mastery of scientific terminology which make a high demand on language proficiency. The EMI students showed a greater interest in learning science than the CMI students, indicating that they were more academically oriented. The EMI students, however, formed a lower perceived self-competence in science than their CMI peers, despite that they performed better in the science achievement test than many of the CMI students. This perception supports the view that using English for instruction may have negative effects on science learning. It is also consistent with the observation that the EMI students perceived science as more difficult to understand and learn than the CMI students.  相似文献   

20.
In this study, we describe the development of measures used to examine pupils’ attitudes towards science. In particular, separate measures for attitudes towards the following areas were developed: learning science in school, practical work in science, science outside of school, importance of science, self‐concept in science, and future participation in science. In developing these measures, criticisms of previous attitude studies in science education were noted. In particular, care was taken over the definition of each of the attitude constructs, and also ensuring that each of the constructs was unidimensional. Following an initial piloting process, pupils aged 11–14 from five secondary schools throughout England completed questionnaires containing the attitude measures. These questionnaires were completed twice by pupils in these schools, with a gap of four weeks between the first and second measurements. Altogether, 932 pupils completed the first questionnaire and 668 pupils completed the second one. Factor analysis carried out on the resulting data confirmed the unidimensionality of the separate attitude constructs. Also, it was found that three of the constructs—learning science in school, science outside of school, and future participation in science—loaded on one general attitude towards science factor. Further analysis showed that all the measures showed high internal reliability (Cronbach’s α > 0.7). A particular strength of the approach used in this study was that it allowed for attitude measures to be built up step‐by‐step, therefore allowing for the future consideration of other relevant constructs.  相似文献   

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