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Science instructors and textbook authors often use analogies to help their students use information they already understand to develop an understanding of new concepts. This study reports the results of an analysis of the use of analogies in eight biochemistry textbooks, which included textbooks written for one‐semester survey biochemistry courses for non‐majors; two‐semester courses for chemistry or biochemistry majors; and biochemistry courses for medical school students. We present an analysis of how analogies are used and presented in biochemistry textbooks, and we compare the use of analogies in biochemistry textbooks to the use of analogies in other science textbooks. We also compare the use of analogies in biochemistry textbooks with the factors known to promote spontaneous transfer of attributes and relations from analog concept to target concept. © 2006 Wiley Periodicals, Inc. J Res Sci Teach 43: 1040–1060, 2006 相似文献
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This paper describes an analogy classification framework used with high school chemistry textbooks. The framework takes into account aspects of past research into analogies in science education to allow for a systematic classification of textbook analogies based upon nine criteria including chemistry content area. Many of the 93 analogies classified described abstract chemistry concepts such as atomic structure and bonding, however, the frequent use of simple analogies, and the scarcity of stated limitations, are likely to create learning problems for students. In some textbooks, authors made use of margin spaces to include more analogies and these marginalised analogies often contained a pictorial component. Recommendations for further research into analogies in science education and possible methodological approaches are suggested. 相似文献
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Analogies can play a relevant role in students’ learning. However, for the effective use of analogies, teachers should not only have a well-prepared repertoire of validated analogies, which could serve as bridges between the students’ prior knowledge and the scientific knowledge they desire them to understand, but also know how to introduce analogies in their lessons. Both aspects have been discussed in the literature in the last few decades. However, almost nothing is known about how teachers draw their own analogies for instructional purposes or, in other words, about how they reason analogically when planning and conducting teaching. This is the focus of this paper. Six secondary teachers were individually interviewed; the aim was to characterize how they perform each of the analogical reasoning subprocesses, as well as to identify their views on analogies and their use in science teaching. The results were analyzed by considering elements of both theories about analogical reasoning: the structural mapping proposed by Gentner and the analogical mechanism described by Vosniadou. A comprehensive discussion of our results makes it evident that teachers’ content knowledge on scientific topics and on analogies as well as their pedagogical content knowledge on the use of analogies influence all their analogical reasoning subprocesses. Our results also point to the need for improving teachers’ knowledge about analogies and their ability to perform analogical reasoning. 相似文献
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Ten experienced science teachers were interviewed about their understandings of the analogical models they use to explain science to their students. The aim was to investigate the notion that teaching pedagogy is influenced by the textbooks commonly used in class. A previously developed typology of analogical models was used to classify each teacher's repertoire of models and the models found in the prescribed science textbooks. The classifications of teacher and textbook models were then compared to identify patterns, similarities and differences. In their interviews, eight of the 10 teachers volunteered that they regularly used models in their lessons. The claimed model use was least for chemistry teachers and highest for physics teachers. Textbook analysis showed that chemistry textbooks used the most models and physics textbooks the least with biology in between. Five teachers saw a need to negotiate with their students the shared and unshared attributes of teaching models and two consistently discussed the limitations of their models. Vignettes and extracts are used throughout the paper to explain how teachers and textbooks use and discuss models. 相似文献
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Yezdan Boz Sevda Yerdelen-Damar Nurdane Aydemir Murat Aydemir 《Research in Science & Technological Education》2016,34(3):307-324
Background: Investigating factors contributing to chemistry achievement is important since it enables us to make more concrete instructional decisions related to improving students? chemistry achievement.Purpose: This study aimed to investigate how students? perceptions of learning environment, self-efficacy and gender are related to chemistry achievement.Sample: Three hundred fifty six high school students with the age range of 14 and 19 from three different schools in the same district were the participants.Design and methods: A structural equation model was designed and tested. Constructivist learning environment survey, self-efficacy scale were the instruments of the study. Information about students? gender and their chemistry grades belonging to the previous semester were also collected.Results: The model testing showed that chemistry self-efficacy beliefs, students? perceptions of constructivist learning environment (through chemistry-self efficacy) and gender were significantly related to chemistry achievement. Moreover, the findings showed that students? chemistry self-efficacy beliefs mediated the relation of students? learning environment perceptions to their chemistry achievement.Conclusions: The present study has some educational implications for teachers, teacher educators and curriculum developers. First of all, self-efficacy was found to have an effect on students? achievement. Therefore, teachers should consider students? self-efficacy beliefs and devise their instruction accordingly. Another implication of this study is the necessity of considering gender differences in designing teachers? instruction. 相似文献
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Anna Bergqvist 《Research in Science & Technological Education》2017,35(2):215-237
Background: Textbooks are integral tools for teachers’ lessons. Several researchers observed that school teachers rely heavily on textbooks as informational sources when planning lessons. Moreover, textbooks are an important resource for developing students’ knowledge as they contain various representations that influence students’ learning. However, several studies report that students have difficulties understanding models in general, and chemical bonding models in particular, and that students’ difficulties understanding chemical bonding are partly due to the way it is taught by teachers and presented in textbooks.
Purpose: This article aims to delineate the influence of textbooks on teachers’ selection and use of representations when teaching chemical bonding models and to show how this might cause students’ difficulties understanding.
Sample: Ten chemistry teachers from seven upper secondary schools located in Central Sweden volunteered to participate in this study.
Design and methods: Data from multiple sources were collected and analysed, including interviews with the 10 upper secondary school teachers, the teachers’ lesson plans, and the contents of the textbooks used by the teachers.
Results: The results revealed strong coherence between how chemical bonding models are presented in textbooks and by teachers, and thus depict that textbooks influence teachers’ selection and use of representations for their lessons. As discussed in the literature review, several of the selected representations were associated with alternative conceptions of, and difficulties understanding, chemical bonding among students.
Conclusions: The study highlights the need for filling the gap between research and teaching practices, focusing particularly on how representations of chemical bonding can lead to students’ difficulties understanding. The gap may be filled by developing teachers’ pedagogical content knowledge regarding chemical bonding and scientific models in general. 相似文献
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David R. Kaufman Vimla L. Patel Sheldon A. Magder 《International Journal of Science Education》2013,35(3):369-386
Analogical reasoning is increasingly recognized as an important instrument for promoting conceptual change in science learning. This study characterized students' and physicians' spontaneous use of analogies in reasoning about concepts related to the mechanical properties of cardiovascular physiology. The analogies were made in response to questions at different levels of abstraction from basic physiology to clinical problems. The results indicate that analogies generated by subjects facilitated explanations in a number of ways. These include creating coherent representations in novel situations, bridging gaps in understanding, and triggering associations which result in modified explanations. Subjects at different levels of expertise used analogies differently. The more expert subjects used analogies to facilitate articulation and communication; that is, to illustrate and expand on their explanations. Novices and advanced medical students used more between‐domain analogies to explain all categories of questions. This is less evident in physicians' responses to pathophysiological and clinical problems. The paper discusses ways in which analogies can be used productively, and identifies factors that can lead to a counter‐productive use of analogies resulting in misconceptions and erroneous explanations. 相似文献
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One hundred high school chemistry students who had completed a unit on chemical change were given a written instrument in which they were shown three oxidation-reduction reactions and were asked to explain them. Eleven students representing a range of achievement levels were chosen for more intensive clinical interviews in which they explained their responses, evaluated the quality of their responses, and compared them to other hypothetical responses. Interview results revealed that students commonly experienced difficulties at three different epistemological levels: 1. Chemical knowledge. Most students failed to invoke atoms and molecules as explanatory constructs, even though they had been emphasized in their chemistry course. Some students also listed “substances” such as heat, cold, or decay as reactants or products. 2. Conservation reasoning. Many students could not predict or explain mass changes in the chemical reactions. Their most common problems included (a) a tendency to treat chemical changes such as rusting as physical changes in form or state, and (b) failure to understand the role of invisible (in this case gaseous) reactants or products in the reactions. 3. Explanatory ideals. Many students demonstrated a preference for explanations based on superficial analogies with everyday events (e.g., rusting is like decay) over explanations based on chemical theories. Only one of the 11 students interviewed demonstrated mastery of the unit's contents at all three levels. Results of this and other research indicate a need for substantial revision in chemistry teaching practice. 相似文献
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This article reports an interpretive examination of four teachers' use of analogies to teach chemistry. The study describes why the teachers chose to use analogies, how the characteristics of the analogies employed varied from teacher to teacher, and from where the teachers derived their analogies. These teachers used analogies spontaneously, as well as on a planned basis, to explain abstract chemistry concepts both on a whole-class basis and for individual students who indicated a lack of understanding. The teachers appeared able to ascertain that the students required an alternative representation without overtly seeking evidence to this effect. The presented analogies, especially those that were of the simple-comparison type, appeared to have a motivational impact on the students. Several analogies were extended to map selected attributes, and these were believed by the teachers to be powerful explanatory devices. Pictorial analogies were frequently used to enhance analog familiarity, and further analog explanation was not uncommon, although the frequency with which the teachers stated the presence of analogical limitations was low. The article concludes by suggesting how science teacher education can be informed by case studies of teaching in context, in this instance of analogy-inclusive teaching by four experienced chemistry teachers. 相似文献
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Keith S. Taber 《International Journal of Science Education》2013,35(8):1001-1014
Pre‐university chemistry students were found to consider that an atomic nucleus gives rise to a certain amount of attractive force which is shared equally among the electrons. Students used this ‘conservation of force’ principle in their explanations of such phenomena as patterns in ionization energy. It is suggested that teachers of chemistry should be aware that although they may be using conventional electrostatic principles in their presentations, their students may be reinterpreting their explanations through this alternative conception. The present research concerns the interface between two scientific disciplines (chemistry and physics) and suggests that learners do not readily integrate their knowledge across such domains. It is mooted that more research into how such demarcations encourage learners to compartmentalize their knowledge may prove fruitful. 相似文献
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Leslie T. Wilkins 《Journal of Criminal Justice Education》2013,24(1):21-31
I examine the coverage of the debate about the effectiveness of offender treatment programs in 53 introductory criminology textbooks: 15 published from 1956 to 1965 and 38 published from 1983 to 1992. My data show that despite continuing skepticism in criminological research about the effectiveness of rehabilitation, most of the older texts and the most recent texts (those published from 1988 to 1992) rate treatment as effective when they take a position on the issue. My study also shows that criminology textbooks often give inadequate coverage to some of the key concepts, such as outcome measures and metaevaluation studies, in the debate about the effectiveness of rehabilitation. I conclude by discussing the implications of my findings for criminology students. 相似文献
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As teachers committed to educating all students, we need to learn more about how instructional materials shape representations of sexuality and gender. Through its insistent deconstruction of the norms that structure practice and belief, queer theory offers perspectives from which science educators can question assumptions embedded in textbooks. This article applies queer theory to analyze eight biology textbooks used in the United States. Specifically, we ask how biology textbooks address sexuality outside the heterosexual norm and if they propagate heteronormative attitudes. The textbooks examined offer deafening silences, antiseptic factoids, socially sanitized concepts, and politically correct binary‐gendered illustrations. In these textbooks, the term homosexuality was used only in the context of AIDS where, along with iv drug users, they were identified as an affected group. The pervasive acceptance of heteronormative behavior privileges students that fit the heterosexual norm, and oppresses through omission and silence those who do not. We offer implications for practice to help science educators broaden their perspectives on the constructs of sexuality and gender to construct new ways of knowing and understanding differences in science classrooms and the natural world. © 2004 Wiley Periodicals, Inc. J Res Sci Teach 41: 617–636, 2004 相似文献
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《Open Learning》2013,28(2):107-121
The orientation of learners, which takes into account their environment and how they take control over their studies, is an important factor in deciding which methods the student will adopt in their learning. To determine the factors which influence the orientations of students studying at a distance, three groups of chemistry students at two Australian universities were studied using a qualitative grounded theory method methodology. It was found that the major influences could be divided into two main categories: independence and study environment. Isolation from the university due to geographical distance and issues of time had made these students independent learners who did not require interaction with other students, or with their lecturers, except when initiated by them. To maintain their interest they had to be highly motivated and this motivation was found to be mainly intrinsic. The students chose to study by distance education, accepted isolation as a part of this choice, and had devised strategies to overcome this. Several different study environments were identified. The major constraints to study were space limitations, work commitments, and family commitments, with the latter being of most concern. In general the students had adopted different strategies to work around these restrictions. Overall, although the students were predisposed to adopt a deep learning approach, they were particularly concerned with their efficiency of learning, which led them to adopt a strategic approach, using both deep and surface approaches depending on their circumstances at the time. 相似文献
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Rodney B. Thiele Grady J. Venville Dr David F. Treagust 《Research in Science Education》1995,25(2):221-230
To aid the explanation of abstract science concepts, authors of textbooks employ learning tools such as analogies to help
students learn. Analogies are believed to allow new material to be more easily assimilated with students' prior knowledge
by linking it to their previous experiences. Continuing research on analogies in science textbooks and science teaching is
providing a clearer picture of the types of analogies that are available (Duit, 1991), their ranges of presentation style
(Curtis & Reigeluth, 1984; Thiele & Treagust, 1992), and their efficacy to effect students' conceptual understandings (Harrison
& Treagust, 1993). 相似文献
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John J. Clement 《International Journal of Science Education》2013,35(10):1271-1286
Evidence is presented indicating that spontaneously generated analogies can play a significant role in expert problem solving. Since not all analogies are valid, it is important for the subject to have a way to evaluate their validity. In particular, this paper focuses on an evaluation strategy called bridging that has been observed in solutions to both science and mathematics problems. Spontaneous analogies have also been documented in the problem solving of students. The shared natural use of analogies for unfamiliar problems is an expert‐novice similarity. Some of the strategies observed in experts were incorporated in a teaching technique for dealing with students’ preconceptions in mechanics. Students taught via these units achieved large gain differences over control groups. Thus non‐deductive reasoning strategies used by experts can give us valuable clues concerning instructional strategies for science students. This complements the prior focus in the literature on expert novice differences with a focus on expert novice similarities. 相似文献
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Brion Sever 《Journal of Criminal Justice Education》2013,24(2):337-353
Research methods are perhaps the most difficult subject matter to teach in the graduate criminal justice curricula. This is in part due to the mix of practitioners and aspiring researchers in most criminal justice graduate departments, leading many instructors to question whether their own coverage is in line with the needs of their graduate students as well as the coverage of other instructors. Also complicating matters is that research methods textbooks are not geared specifically for the graduate level, and thus may neglect topics that are necessary for today's criminal justice graduate students. The present study addresses these concerns by providing an analysis of 11 current criminal justice research methods textbooks, as well as a survey of 36 instructors of graduate criminal justice and criminology research methods classes. Both the texts and instructors are found to place a strong focus on quantitative methods, while the textbooks tend to place a greater emphasis on qualitative methods than the instructors. Moreover, both the texts and instructors neglect topics crucial to today's criminal justice graduate student, including grant writing, article writing and critiquing, and standards for collaborative research efforts. 相似文献