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1.
Dr. Diane Grayson 《Research in Science Education》1994,24(1):102-111
Numerous studies have shown that students often hold conceptions that conflict with accepted scientific ideas, both prior
to and after instruction. The failure of instruction to affect students' conceptions can be interpreted as a failure to facilitate
conceptual change. In this paper, an instructional strategy will be described that facilitates conceptual change in the special
case where conceptual difficulties appear to arise because students confuse related physics concepts. The strategy involves
two parts. Firstly, students observe an experiment or demonstration that conflicts with what they expect to see. Secondly,
the instructor identifies students' intuitions that are correct but that they have associated with an incorrect physics term,
and substitutes the correct physics term. Students can thus develop more scientifically acceptable understandings of physics
concepts without having to give up their intuitive ideas. The use of this strategy will be illustrated in two domains of physics.
Specializations: physics education, conceptual development, instructional design, improvement of tertiary science education. 相似文献
2.
Lay conceptions of energy often conflict with scientific knowledge, hinder science learning and scientific literacy, and provide a basis for ungrounded beliefs. In a sample of Finnish upper secondary school students, energy was attributed with features of living and animate beings and thought of as a mental property. These ontologically confused conceptions (OCC) were associated with trust in complementary and alternative medicine (CAM), and independent of scientifically valid conceptions. Substance-based energy conceptions followed the correlational pattern of OCC, rather than scientific conceptions. OCC and CAM decreased both during the regular school physics curriculum and after a lesson targeted at the ontological confusions. OCC and CAM were slightly less common among students with high actively open-minded thinking, low trust in intuition and high need for cognition. The findings are discussed in relation to the goals of scientific education. 相似文献
3.
This study was based on the framework of the “conflict map” to facilitate student conceptual learning about causes of the seasons. Instruction guided by the conflict map emphasizes not only the use of discrepant events, but also the resolution of conflict between students' alternative conceptions and scientific conceptions, using critical events or explanations and relevant perceptions and conceptions that explicate the scientific conceptions. Two ninth grade science classes in Taiwan participated in this quasi‐experimental study in which one class was assigned to a traditional teaching group and the other class was assigned to a conflict map instruction treatment. Students' ideas were gathered through three interviews: the first was conducted 1 week after the instruction; the second 2 months afterward; and the third at 8 months after the treatment. Through an analysis of students' interview responses, it was revealed that many students, even after instruction, had a common alternative conception that seasons were determined by the earth's distance to the sun. However, the instruction guided by the framework of the conflict map was shown to be a potential way of changing the alternative conception and acquiring scientific understandings, especially in light of long‐term observations. A detailed analysis of students' ideas across the interviews also strongly suggests that researchers as well as practicing teachers need to pay particular attention to those students who can simply recall the scientific fact without deep thinking, as these students may learn science through rote memorization and soon regress to alternative conceptions after science instruction. © 2005 Wiley Periodicals, Inc. J Res Sci Teach 42: 1089–1111, 2005 相似文献
4.
Antonio García‐Carmona Ana Maria Criado 《International Journal of Science Education》2013,35(16):2205-2245
The present article presents a didactic proposal oriented to teaching notions of semiconductor physics in secondary education. The methods and the results of a pilot study designed to analyse the effectiveness of a teaching sequence on the topic are also described. The subjects were 60 students, aged 14–15 years, of a secondary school in Seville, Spain. The levels of knowledge acquired by the students were evaluated by means of a test and personal interviews, which we also used to detect the most frequent obstacles they encountered against learning. Also, we employed personal interviews and analysis of the students’ notebooks to evaluate their attitudes towards semiconductor physics and its learning, and to evaluate the degree to which the teaching sequence fosters cooperative learning and the self‐regulation of learning. The results indicated that the students in general acquired ideas and reasoning in the appropriate line, although with some mistakes or inaccuracies with respect to scientific conceptions, and acquired positive attitudes towards the learning of semiconductor physics, with a high degree of motivation during the teaching–learning process. The conclusion is that it is possible to initiate teaching the basic notions of semiconductor physics in secondary education, although it is necessary to continue going deeper into the topic with new research. As a proposal for improvement in future actions, we formulate new objectives oriented at overcoming the students’ commonest obstacles against learning with respect to the topic. 相似文献
5.
Hye-Eun Chu David F. Treagust A. L. Chandrasegaran 《Research in Science Education》2008,38(1):111-125
This research involved na?ve physics learners who were interested in majoring in science or engineering. In a semester-long
quasi-experimental study, open-ended pretests and weekly interviews were used to analyse the progressive development of students’
conceptions relating to sound and wave motion. Semi-structured interviews were also conducted to elucidate: (1) how their
conceptions developed from everyday conceptions to unclear scientific conceptions to scientific conceptions, and (2) their
beliefs of physics knowledge. Despite efforts to enable these students to learn physics, the findings showed that only two
out of ten students developed acceptable physics conceptions during the course that would enable them to pursue the subject
to a higher level. Also, students’ conceptual development was found to be related to their cognitive understanding and to
epistemological beliefs of physics. Therefore, to facilitate na?ve physics learners’ success in a general physics course,
in addition to the acquisition of content knowledge, explicit emphasis needs to be placed on the nature of physics knowledge. 相似文献
6.
One of the factors affecting students' learning in science is their existing knowledge prior to instruction. The students' prior knowledge provides an indication of the alternative conceptions as well as the scientific conceptions possessed by the students. This study is concerned primarily with students' alternative conceptions and with instructional strategies to effect the learning of scientific conceptions; i.e., to effect conceptual change from alternative to scientific conceptions. The conceptual change model used here suggests conditions under which alternative conceptions can be replaced by or differentiated into scientific conceptions and new conceptions can be integrated with existing conceptions. The instructional strategy and materials were developed for a particular student population, namely, black high school students in South Africa, using their previously identified prior knowledge (conceptions and alternative conceptions) and incorporate the principles for conceptual change. The conceptions involved were mass, volume, and density. An experimental group of students was taught these concepts using the special instructional strategy and materials. A control group was taught the same concepts using a traditional strategy and materials. Pre- and posttests were used to assess the conceptual change that occurred in the experimental and control groups. The results showed a significantly larger improvement in the acquisition of scientific conceptions as a result of the instructional strategy and materials which explicitly dealt with student alternative conceptions. 相似文献
7.
8.
This article describes an exploratory case study of secondary school physics teachers' conceptions of scientific evidence. The nature of teachers' conceptions of evidence was derived from an analysis of data collected from 1 preservice and 2 in‐service teachers. Each teacher responded to a series of research prompts in multiple interviews and handwritten tasks. In these research prompts, the teachers thought aloud while designing experiments and critically evaluating student‐collected data as presented in hypothetical classroom scenarios. Spoken and written data were recorded. The data set was coded and analyzed using standard qualitative analysis techniques. Data from this study suggest that, while contemplating the reliability and validity of hypothetical student‐generated scientific evidence, the teachers frequently intertwined conceptions of evidence with subject matter concepts centrally relevant to the hypothetical investigation. Data also indicate that the relationship between subject matter knowledge and conceptions of evidence was more pronounced for some conceptions of evidence than for others. Results suggest that a fuller study is warranted. Suggestions for future research include exploring such relationships in other physics content areas as well as other scientific disciplines. Implications for science teacher education suggest that science and science methods courses should encourage preservice teachers to engage in original scientific research, as well as participate in peer review and critique. © 2003 Wiley Periodicals, Inc. J Res Sci Teach 40: 721–736, 2003 相似文献
9.
The process of students' conceptual change was investigated during a computer‐supported physics unit in a Grade 10 science class. Computer simulation programs were developed to confront students' alternative conceptions in mechanics. A conceptual test was administered as a pre‐, post‐, and delayed posttest to determine students' conceptual change. Students worked collaboratively in pairs on the programs carrying out predict–observe–explain tasks according to worksheets. While the pairs worked on the tasks, their conversational interactions were recorded. A range of other data was collected at various junctures during instruction. At each juncture, the data for each of 12 students were analyzed to provide a conceptual snapshot at that juncture. All the conceptual snapshots together provided a delineation of the students' conceptual development. It was found that many students vacillated between alternative and scientific conceptions from one context to another during instruction, i.e., their conceptual change was context dependent and unstable. The few students who achieved context independent and stable conceptual change appeared to be able to perceive the commonalities and accept the generality of scientific conceptions across contexts. These findings led to a pattern of conceptual change which has implications for instructional practices. The article concludes with consequent implications for classsrooms. © 1999 John Wiley & Sons, Inc. J Res Sci Teach 36: 859–882, 1999 相似文献
10.
In this article the authors resort to a qualitative analysis of the plot of science fiction stories about a group of scientists, written by two 11th‐grade Earth and Life Science students (aged 17), and to semi‐structured interviews, with the double purpose of diagnosing their conceptions of the nature of science (namely, as regards scientists’ activity), and discussing the potentialities of this methodology in terms of research and education in science. The adopted methodology proved particularly effective in diagnosing the students’ conceptions of scientists’ characteristics, scientific activity, and science–technology–society interactions. The limited content of certain conceptions and a certain lack of knowledge on the part of the students concerning the processes and the epistemology of science highlight the need to pay explicit attention in science classes to the nature of scientific activity. Some of the ideas brought up by the students clearly show the influence of stereotypes and catastrophic scenarios depicted in films, television programs, and books, revealing media’s limitations when divulging scientific and technological themes to the general public and stressing the need for the school to promote a critical debate about science and technology images conveyed by the media. 相似文献
11.
Background and purpose : Knowing how students learn physics is a central goal of physics education. The major purpose of this study is to examine the strength of the predictive power of students’ epistemic views and conceptions of learning in terms of their approaches to learning in physics. Sample, design and method : A total of 279 Taiwanese high school students ranging from 15 to 18?years old participated in this study. Three questionnaires for assessing high school students’ epistemic views on physics, conceptions of learning physics and approaches to learning physics were developed. Step-wise regression was performed to examine the predictive power of epistemic views on physics and conceptions of learning physics in terms of their approaches to learning physics. Results and conclusion: The results indicated that, in general, compared to epistemic views on physics, conceptions of learning physics are more powerful in predicting students’ approaches to learning physics in light of the regression models. That is, students’ beliefs about learning, compared with their beliefs about knowledge, may be more associated with their learning approaches. Moreover, this study revealed that the higher-level conceptions of learning physics such as ‘Seeing in a new way’ were more likely to be positively correlated with the deep approaches to learning physics, whereas the lower-level conceptions such as ‘Testing’ were more likely to positively explain the surface approaches, as well as to negatively predict the deep approaches to learning physics. 相似文献
12.
Elise Baldy 《International Journal of Science Education》2013,35(14):1767-1788
Today’s method of teaching the concept of falling bodies in French physics classes is ineffective, not only because it ignores the physical aspect of the phenomenon by addressing only its mathematical aspect, but also because it does not take into account students’ initial conceptions, which are often incompatible with scientific knowledge. The goal of the present study was to assess the effectiveness of a new educational perspective for teaching gravity, based on an analogical presentation of Einstein’s theory of the deformation of space‐time. The conceptions of French 15‐year‐old ninth graders and how they evolve are analyzed and compared for two different teaching methods, the new perspective (n = 102) and an approach based on Newton’s theory of bodies interacting at a distance. The data obtained are used to describe students’ initial conceptions of falling bodies, and confirm the lesser effectiveness of the teaching approach based on Newton’s theory. The results provide evidence of two phases of conceptual change: “positive substitution” (when a correct explanatory system replaces an erroneous one) and “generalization” (when the domain of validity of a correct explanatory system is extended). They also show that Einstein’s theory can be understood by ninth graders and promotes more conceptual change than a method based on Newton’s theory of bodies interacting at a distance. The new perspective appears to help students not only to extend the domain of validity of the correct conception – that bodies fall because they are attracted – but also to change their conception of attraction, now understood as the effect of a property of space rather than a property of bodies. 相似文献
13.
E. Gaigher J. M. Rogan M. W. H. Braun 《International Journal of Science Education》2013,35(9):1089-1110
A study on the effect of a structured problem‐solving strategy on problem‐solving skills and conceptual understanding of physics was undertaken with 189 students in 16 disadvantaged South African schools. This paper focuses on the development of conceptual understanding. New instruments, namely a solutions map and a conceptual index, are introduced to assess conceptual understanding demonstrated in students’ written solutions to examination problems. The process of the development of conceptual understanding is then explored within the framework of Greeno’s model of scientific problem‐solving and reasoning. It was found that students who had been exposed to the structured problem‐solving strategy demonstrated better conceptual understanding of physics and tended to adopt a conceptual approach to problem‐solving. 相似文献
14.
Paulo Blikstein Tamar Fuhrmann Shima Salehi 《Journal of Science Education and Technology》2016,25(4):513-526
In this paper, we investigate an approach to supporting students’ learning in science through a combination of physical experimentation and virtual modeling. We present a study that utilizes a scientific inquiry framework, which we call “bifocal modeling,” to link student-designed experiments and computer models in real time. In this study, a group of high school students designed computer models of bacterial growth with reference to a simultaneous physical experiment they were conducting, and were able to validate the correctness of their model against the results of their experiment. Our findings suggest that as the students compared their virtual models with physical experiments, they encountered “discrepant events” that contradicted their existing conceptions and elicited a state of cognitive disequilibrium. This experience of conflict encouraged students to further examine their ideas and to seek more accurate explanations of the observed natural phenomena, improving the design of their computer models. 相似文献
15.
Gavin T.L. Brown Gerrit H.F. Hirschfeld 《Assessment in Education: Principles, Policy & Practice》2008,15(1):3-17
Students conceive of assessment in at least four major ways (i.e., assessment makes students accountable; assessment is irrelevant because it is bad or unfair; assessment improves the quality of learning; and assessment is enjoyable). A study in New Zealand of 3469 secondary school students’ conceptions of assessment used a self‐report inventory and scores from a standardised curriculum‐based assessment of reading comprehension. Four inter‐correlated conceptions based on 11 items were found with good psychometric properties. A path‐model linking the four correlated conceptions with student achievement in reading, while taking into account student ethnicity, student sex, and student year, had good psychometric properties. The conception that assessment makes students accountable loaded positively on achievement while the three other conceptions (i.e., assessment makes schools accountable, assessment is enjoyable, and assessment is ignored) had negative loadings on achievement. These findings are consistent with self‐regulation and formative assessment theories, such that students who conceive of assessment as a means of taking responsibility for their learning (i.e., assessment makes me accountable) will demonstrate increased educational outcomes. 相似文献
16.
在物理课堂教学中,通过创设类似于科学研究的情境,使物理教学过程尽可能地成为一种“亚研究”过程,让学生亲历物理概念的形成过程,在探究中获得真知;让学生追溯物理规律的发现过程,在探究中提高能力;让学生体验物理实验的设计过程,在探究中培养素质。 相似文献
17.
Dr Peter Searle 《Research in Science Education》1993,23(1):266-275
This paper reports on the application of a constructivist-based teaching strategy with a small group of first-year physics
students. Data collection and analysis procedures are discussed, and the responses of three students to three situations involving
force concepts are presented. A number of issues relevant to conceptual change teaching strategies are identified. In addition
to an emphasis on alternative conceptions, issues identified that require consideration when developing teaching strategies
for conceptual change include an emphasis on understanding physics terminology, the development of a supportive learning environment
and the use of a wide range of problem contexts.
Specializations: physics education, alternative conceptions, conceptual change. 相似文献
18.
Pinchas Tamir 《Research in Science & Technological Education》2013,31(2):99-116
Abstract Israeli students’ conceptions of the nature of science and views about the scientific enterprise were studied within the framework of the Second International Science Study (SISS). Representative samples of 10, 14 and 17year‐old student, about 2000 in each, responded to background questionnaires and a battery of tests and scales. The Science Understanding Measure, a 20 item, multiple choice instrument provided data on understanding the nature of science by 14 and 17 year‐olds. An Attitude toward Science Scale provided data on the views of 10, 14 and 17 year‐olds on the importance of science to society and to individuals, the usefulness of science in everyday life and on harmful aspects of science. A comparison was made between the view of Israeli, British and USA students. The relationships of the conceptions and views of 17 year‐olds with personal, home and school variables as well as with achievement in science, intentions for further learning and career aspirations were explored as well. Based on the results and conclusions some recommendations are offered on how to enhance the understanding of science and promote more positive attitudes towards the scientific enterprise 相似文献
19.
The present study explores the relationship between students’ views of the nature of science (NOS) and their views of the nature of scientific measurement. A questionnaire with two‐tier diagnostic multiple‐choice items on both the NOS and measurement was administered to 179 first‐year physics students with diverse school experiences. Students’ views on the NOS were classified into four NOS ‘profiles’, and views on measurement were classified according to either the point or set paradigms. The findings show that students with a NOS profile dominated by a belief that the laws of nature are to be discovered by scientists are more likely to have a view of the nature of scientific measurement characterised by a belief in ‘true’ values. On the other hand, students who believe that scientific theories are inventions of scientists, constructed from observations that are then validated through further experimentation, are more likely to have a view of the nature of scientific measurement that is underpinned by the uncertain nature of scientific evidence. The implications for teaching scientific measurement at tertiary level are discussed. 相似文献
20.
Sharri Plonski 《Compare》2005,35(4):393-409
This paper discusses the presence of ‘peacebuilding islands’ within civil society as potential agents of transformation in the midst of intractable conflict. Focusing on the particular case of the Israeli‐Palestinian conflict, the argument stems from a deconstruction of the legacy of national myopia perpetuated through social and political institutions and the capacity of individuals to impact them. Inspired by feminist organisations and the personal experience of feminist peace activists in Israel and Palestine, the author discusses the intersection of a variety of peacebuilding and educational initiatives as paramount to the building of a culture of peace in the region. The study embraces strategies that challenge the structural, socio‐cultural and inter‐personal status quo as part of a multi‐layered effort at transforming conflict in the Middle East. 相似文献