共查询到20条相似文献,搜索用时 590 毫秒
1.
In recent years, research on students' scientific argumentation has progressed to a recognition of nascent resources: Students can and do argue when they experience the need and possibility of persuading others who may hold competing views. Our purpose in this article is to contribute to this progress by applying the perspective of framing to the question of when and how a class forms and maintains a sense of their activity as argumentative. In particular, we examine three snippets from a sixth‐grade class with respect to how the students—and the teacher—experience, or frame, what is taking place. We argue that they show dynamics of framing for individuals and for the class as a whole that affect and are affected by students' engagement in argumentation. We close the article with implications of this perspective for research, teaching, and instructional design. © 2011 Wiley Periodicals, Inc. J Res Sci Teach 49: 68–94, 2012 相似文献
2.
We report here on the first of two evaluations of a national project (Getting Practical: Improving Practical Work in Science—IPWiS) designed to improve the effectiveness of practical work in both primary and secondary schools in England. This first baseline evaluation of the effectiveness of practical work is based on a study of a diverse range of 30 practical lessons undertaken in non‐selective primary (n = 10) and secondary (n = 20) schools prior to the teachers undertaking a training intervention designed to improve their effective use of practical work. A multi‐site case study approach employing a condensed fieldwork strategy was used in which data were collected, using audiotape‐recorded discussions, interviews, and observational field notes. The analysis, based on work by Millar et al. and Tiberghien, considers what students do and think relative to what their teacher intended them to do and think. In both primary and secondary schools, the widespread use of highly structured “recipe” style tasks meant that practical work was highly effective in enabling students (n = 857) to do what the teacher intended. Whilst tasks in primary schools tended to be shorter than in secondary schools, with more time devoted to helping students understand the meaning of new scientific words, neither primary nor secondary teachers' lesson plans incorporated explicit strategies to assist students in making links between their observations and scientific ideas. As such, tasks were less effective in enabling students to use the intended scientific ideas to understand their actions and reflect upon the data they collected. These findings suggest that practical work might be made more effective, in terms of developing students' conceptual understanding—an aim of the IPWiS project—if teachers adopted a more “hands‐on” and “minds‐on” approach and explicitly planned how students were to link these two essential components of practical work. © 2012 Wiley Periodicals, Inc. J Res Sci Teach 49: 1035–1055, 2012 相似文献
3.
This is a mix methods follow‐up study in which we reconfirm the findings from an earlier study [Vedder‐Weiss & Fortus [ 2011 ] Journal of Research in Science Teaching, 48(2), 199–216]. The findings indicate that adolescents' declining motivation to learn science, which was found in many previous studies [Galton [ 2009 ] Moving to secondary school: Initial encounters and their effects. Perspectives on Education, 2(Primary‐secondary Transfer in Science), 5–21. Retrieved from www.wellcome.ac.uk/perspectives ; Osborne, Simon, & Collins, [2003] International Journal of Science Education 25(9), 1049–1079], is not an inevitable phenomenon since it appears not to occur in Israeli democratic schools. In addition to reinforcing previous results in a different sample, new results show that the differences between the two school types are also apparent in terms of students' self‐efficacy in science learning, students' perceptions of their teachers' goals emphases, and students' perception of their peers' goals orientation. Quantitative results are accompanied by rich verbal examples of ways in which students view and articulate their own and their teachers' goal emphases. Content analysis of students' interviews showed that students in traditional schools are directed more towards goals that are external and related to the outcome of learning in comparison to democratic school students who are motivated more by goals that are internal and related to the process of learning. Structure analysis of these interviews suggests that democratic school students experience a greater sense of autonomy in their science learning than traditional school students do. Implications for research on students' motivation are discussed, such as considering not only the teacher and the classroom but also the school culture. © 2012 Wiley Periodicals, Inc. J Res Sci Teach 49: 1057–1095, 2012 相似文献
4.
Cognitive foundations for science assessment design: Knowing what students know about evolution 总被引:1,自引:0,他引:1
To improve assessments of academic achievement, test developers have been urged to use an “assessment triangle” that starts with research‐based models of cognition and learning [NRC (2001) Knowing what students know: The science and design of educational assessment. Washington, DC: National Academy Press]. This approach has been successful in designing high‐quality reading and math assessments, but less progress has been made for assessments in content‐rich sciences such as biology. To rectify this situation, we applied the “assessment triangle” to design and evaluate new items for an instrument (ACORNS, Assessing Contextual Reasoning about Natural Selection) that had been proposed to assess students' use of natural selection to explain evolutionary change. Design and scoring of items was explicitly guided by a cognitive model that reflected four psychological principles: with development of expertise, (1) core concepts facilitate long‐term recall, (2) causally‐central features become weighted more strongly in explaining phenomena, (3) normative ideas co‐exist but increasingly outcompete naive ideas in reasoning, and (4) knowledge becomes more abstract and less specific to the learning situation. We conducted an evaluation study with 320 students to examine whether scores from our new ACORNS items could detect gradations of expertise, provide insight into thinking about evolutionary change, and predict teachers' assessments of student achievement. Findings were consistent with our cognitive model, and ACORNS was revealing about undergraduates' thinking about evolutionary change. Results indicated that (1) causally‐central concepts of evolution by natural selection typically co‐existed and competed with the presence of naïve ideas in all students' explanations, with naïve ideas being especially prevalent in low‐performers' explanations; (2) causally‐central concepts were elicited most frequently when students were asked to explain evolution of animals and familiar plants, with influence of superficial features being strongest for low‐performers; and (3) ACORNS scores accurately predicted students' later achievement in a college‐level evolution course. Together, findings illustrate usefulness of cognitive models in designing instruments intended to capture students' developing expertise. © 2012 Wiley Periodicals, Inc. J Res Sci Teach 49: 744–777, 2012 相似文献
5.
《Journal of Further & Higher Education》2012,36(3):233-249
This paper explores the decision‐making of students entering full time UK taught masters degree courses. The findings come from an ongoing research project, Career progression and employability for full time UK resident masters students. Little previous work has focused on these students and their process of transition (however long) from undergraduate studies. Analysis of the data from in‐depth interviews with 24 students from six masters courses across two universities has led to the development of a threefold classification to summarize students' circumstances on entry to their courses. Alongside this, Bourdieu's notions of field, social, cultural and economic capital and habitus have proved valuable in making sense of the data. I argue that students' decisions to pursue full time higher level study are related to their circumstances on application, their dispositions and the resources they have available to them that are relevant to their masters level study. Key differences in the students' circumstances are cross cut by key common themes, suggesting that they bring their prior dispositions to their decision‐making, which is firmly located within the opportunity structures they perceive as relevant to themselves. The complexities of the students' decision‐making appear to be a far cry from the narrow policy notion of students as rational actors seeking economic gain. 相似文献
6.
Thirty-four clinical interviews were conducted with Grade 10 students (15–16 years old) who had received four years of physics instruction. The interview's focus was to understand students' responses from their point of view and not solely from the physicist's angle. The results of the study confirm and deepen, on the one hand, findings from other studies concerning students' severe difficulties in learning the energy concept, the particle model, and the distinction between heat and temperature. On the other hand, students' qualitative conceptions in a new area—the second law of thermodynamics—are revealed. For instance, in the case of irreversibility (i.e., the idea that all processes take place by themselves only in one direction), most students came to conclusions similar to those of modern physicists. But their explanations of irreversibility are based on significantly different conceptual frameworks. The results of the study suggest that a mere enlargement of the traditional physics curriculum by the addition of ideas of the second law is not sufficient to familiarize students with these ideas. A totally new teaching approach to heat, temperature, and energy is necessary. In this approach, basic qualitative ideas of the second law should be a central and integral part from the beginning of instruction. 相似文献
7.
This paper addresses student‐teachers' ability to read nature in a woodland habitat before and after a 10‐week ecology course. Reading nature is our definition of the ability to observe, describe and explain basic ecology in the field. Data consists of field‐based pre‐course and post‐course interviews followed up by metacognitive interviews where students analyse their own learning. A bi‐dimensional coding scheme is adopted to examine the range and development of students' ability to read nature. Students find it important to know the ecology of a few key species and they recognize the importance of having learned the language of ecology — ecologish — helping them to describe and discuss ecology. Students generally recognize the excursions as key learning situations in ecology education but they give different reasons for finding excursions so important. This variation will be elaborated in the paper together with the implications for teaching ecology. 相似文献
8.
This study examined structural characteristics of university engineering students' conceptions of energy elicited through paragraph writing and their relations with categories of their conceptions specific to energy in solution processes identified through interviews. We found that structures of students' conceptions are characterized primarily by characteristic, example‐of/type‐of, and lead‐to types of relations, and these relations correspond with categories of students' conceptions. More specifically, categories of students' conceptions are exclusively related to energy transformation, and students failed to apply the notion of energy conservation demonstrated in structures of their conceptions to explain the temperature change in solution processes. It is concluded that although paragraph writing and interviews solicit different student conceptions, the conceptions identified from the two sources are related and paragraph writing tends to provide a more holistic picture of students' conceptions. This conclusion has clear implications for science curriculum development and instruction. © 2002 Wiley Periodicals, Inc. J Res Sci Teach 39: 423–441, 2002 相似文献
9.
10.
Leslie Ann Locke Lolita A. Tabron Terah T. Venzant Chambers 《Educational Studies A Journal of the American Educational Studies Association》2017,53(1):13-36
Schools are supposed to be places where students learn academic and technical skills while also expanding their social networks. Although much research exists that examines academic achievement from a variety of lenses, schools and educators continue to lack insight into the various strengths—or capital—students bring with them to school alongside the barriers—or costs—they face once there. To help bridge the gap between the extant research and what is practiced in schools, we provide insight into what educators can do to capitalize on students' strengths and minimize the barriers to achievement. This article draws from two theoretical frameworks, Community Cultural Wealth (CCW) and Racial Opportunity Cost (ROC), and two qualitative research projects that examined Latina high school students' academic achievement from a capitals and costs perspective. Although significant research has identified assets-based approaches to schooling, our results indicate that the interplay between the norms of the school and the norms the students embraced played a critical role in terms of creating conditions for a positive school experience. Based on our findings, we offer recommendations for educators to address the costs that students experience. 相似文献
11.
Researchers believe that the way that students talk, specifically the language that they use, can offer a window into their reasoning processes. Yet the connection between what students are saying and what they are actually thinking can be ambiguous. We present the results of an exploratory interview study with 10 participants, designed to investigate the role of language in university physics students' reasoning about heat in thermodynamic processes. The study revealed two key findings: (1) students' approaches to solving certain heat-related problems are related to the way in which they explicitly define the word ‘heat’ and (2) students' tendency to reason with heat as a state function in inappropriate contexts appears to be connected to a model of heat implicitly encoded in language. This model represents heat or heat energy/thermal energy as a substance that moves from one location to another. In this model, students talk about thermodynamic systems as ‘containers' of heat, and temperature is a measure of the amount of heat ‘in' an object. 相似文献
12.
Providing model‐based accounts (explanations and predictions) of water and substances in water moving through environmental systems is an important practice for environmental science literacy and necessary for citizens confronting global and local water quantity and quality issues. In this article we present a learning progression for water in environmental systems for students in elementary through high school grades. We investigated student accounts of water and substances in water moving through atmospheric, surface, and soil/groundwater systems, including human‐engineered components of these systems. Using an iterative process of model design, assessment, and interpretation, we identified four levels of achievement in student reasoning. Levels 1 and 2 force‐dynamic accounts explain movement of water as interactions between natural tendencies of water and countervailing powers. Level 3 incomplete school science accounts put events in order and trace water and substance along multiple pathways that include hidden and invisible components. Only Level 4 qualitative model‐based accounts include driving forces and constraining factors to explain or predict where water and substances in water move in given situations. The majority of high school students on average provide accounts between levels 2 and 3. We discuss the significance of these results for citizen participation in addressing common water issues. We end with suggestions for how the water learning progression can be used to inform changes to curricula, assessment, and instruction to support students in achieving level 4 performance. © 2012 Wiley Periodicals, Inc. J Res Sci Teach 49: 843–868, 2012 相似文献
13.
Simon Cassidy 《Assessment & Evaluation in Higher Education》2007,32(3):313-330
The study sought to establish the level of students' self‐assessment skill—particularly inexperienced students—and to examine the relationship between self‐assessment skill and learning style, student perceptions of academic locus of control and academic self‐efficacy. Students were asked to evaluate and provide estimated marks for their own work, were which compared with tutors' actual marks. Students also completed measures of learning style, academic locus control and academic self‐efficacy. Comparisons of student estimated and tutor marks indicated a good level of self‐assessment skill in the majority of students. A significant minority of students did however fail to exhibit such skills. There was also some evidence of a tendency for students to underestimate their performance. While both strategic and deep approaches to learning were shown to be positively correlated with tutor mark, only surface approach was negatively correlated with students' estimated mark, suggesting that surface learners are inclined to provide lower evaluations of their own performance. Deep approach was also correlated with accuracy of student self‐assessment skill, suggesting that deep learning is associated with self‐assessment competency. No clear or convincing associations between self‐assessment skill and perceptions of academic locus of control or academic self‐efficacy were identified. Findings suggest that while self‐assessment skill undoubtedly develops, becoming more effective during students' academic career, inexperienced students do have the capacity for self‐evaluation and should therefore be included in self‐assessment activities. In the light of findings related to learning style and the heterogeneous nature of student groups, student monitoring and skill development are proposed in order to allow the integration of self‐assessment into the learning and assessment process. 相似文献
14.
Students' environmental NOS views,compassion, intent,and action: Impact of place‐based socioscientific issues instruction 
下载免费PDF全文
下载免费PDF全文 Benjamin C. Herman 《科学教学研究杂志》2018,55(4):600-638
Preparing students to achieve the lofty goal of functional scientific literacy entails addressing the normative and non‐normative facets of socioscientific issues (SSI) such as scientific processes, the nature of science (NOS) and diverse sociocultural perspectives. SSI instructional approaches have demonstrated some efficacy for promoting students' NOS views, compassion for others, and decision making. However, extant investigations appear to neglect fully engaging students through authentic SSI in several ways. These include: (i) providing SSI instruction through classroom approaches that are divorced from students' lived experiences; (ii) demonstrating a contextual misalignment between SSI and NOS (particularly evident in NOS assessments); and (iii) framing decision making and position taking analogously—with the latter being an unreliable indicator of how people truly act. The significance of the convergent parallel mixed‐methods investigation reported here is how it responds to these shortcomings through exploring how place‐based SSI instruction focused on the contentious environmental issue of wolf reintroduction in the Greater Yellowstone Area impacted sixty secondary students' NOS views, compassion toward those impacted by contentious environmental issues, and pro‐environmental intent. Moreover, this investigation explores how those perspectives associate with the students' pro‐environmental action of donating to a Yellowstone environmental organization. Results demonstrate that the students' NOS views became significantly more accurate and contextualized, with moderate to large effect, through the place‐based SSI instruction. Through that instruction, the students also exhibited significant gains in their compassion for nature and people impacted by contentious environmental issues and pro‐environmental intent. Further analyses showed that donating students developed and demonstrated significantly more robust and contextualized NOS views, compassion for people and nature impacted by contentious environmental issues, and pro‐environmental intent than their nondonating counterparts. Pedagogical implications include how place‐based learning in authentic settings could better prepare students to understand NOS, become socioculturally aware, and engage SSI across a variety of contexts. 相似文献
15.
Sexual health is a controversial science topic that has received little attention in the field of science education, despite its direct relevance to students' lives and communities. Moreover, research from other fields indicates that a great deal remains to be learned about how to make school learning about sexual health influence the real‐life choices of students. In order to provide a more nuanced understanding of young people's decision‐making, this study examines students' talk about sexual health decision‐making through the lens of identities. Qualitative, ethnographic research methods with twenty 12th grade students attending a New York City public school are used to illustrate how students take on multiple identities in relation to sexual health decision‐making. Further, the study illustrates how these identities are formed by various aspects of students' lives, such as school, family, relationships, and religion, and by societal discourses on topics such as gender, individual responsibility, and morality. The study argues that looking at sexual health decision‐making—and at decision‐making about other controversial science topics—as tied to students' identities provides a useful way for teachers and researchers to grasp the complexity of these decisions, as a step toward creating curriculum that influences them. © 2010 Wiley Periodicals, Inc. J Res Sci Teach 47:742–762, 2010 相似文献
16.
The transfer of matter and energy from one organism to another and between organisms and their physical setting is a fundamental concept in life science. Not surprisingly, this concept is common to the Benchmarks for Science Literacy (American Association for the Advancement of Science, 1993 ), the National Science Education Standards (National Research Council, 1996 ), and most state frameworks and likely to appear in any middle‐school science curriculum material. Nonetheless, while topics such as photosynthesis and cellular respiration have been taught for many years, research on student learning indicates that students have difficulties learning these ideas. In this study, nine middle‐school curriculum materials—both widely used and newly developed—were examined in detail for their support of student learning ideas concerning matter and energy transformations in ecosystems specified in the national standards documents. The analysis procedure used in this study was previously developed and field tested by Project 2061 of the AAAS on a variety of curriculum materials. According to our findings, currently available curriculum materials provide little support for the attainment of the key ideas chosen for this study. In general, these materials do not take into account students' prior knowledge, lack representations to clarify abstract ideas, and are deficient in phenomena that can be explained by the key ideas and hence can make them plausible. This article concludes with a discussion of the implications of this study to curriculum development, teaching, and science education research based on shortcomings in today's curricula. © 2004 Wiley Periodicals, Inc. J Res Sci Teach 41: 538–568, 2004 相似文献
17.
The aim of this study is to explore the ways in which students, aged 11–14 years, account for certain changes in physical systems and the extent to which they draw on an energy model as a common framework for explaining changes observed in diverse systems. Data were combined from two sources: interviews with 20 individuals and an open‐ended questionnaire that was administered to 240 students (121 upper elementary school students and 119 middle school students). We observed a wealth of approaches ranging from accounts of energy transfer and transformation to responses identifying specific objects or processes as the cause of changes. The findings also provide evidence that students do not seem to appreciate the transphenomenological and unifying nature of energy. Students' thinking was influenced by various conceptual difficulties that are compounded by traditional science teaching; for instance, students tended to confuse energy with force or electric current. In addition, the comparison between the responses from middle school students and those of elementary school students demonstrates that science teaching and maturation appeared to have a negligible influence on whether students had constructed a coherent energy model, which they could use consistently to account for changes in certain physical systems. © 2007 Wiley Periodicals, Inc. J Res Sci Teach 45: 444–469, 2008 相似文献
18.
Karen R. Marsh Bruce F. Giffin Donald J. Lowrie Jr. 《Anatomical sciences education》2008,1(6):252-257
The purpose of this project was to develop Web‐based learning modules that combine (1) animated 3D graphics; (2) 3D models that a student can manipulate independently; (3) passage of time in embryonic development; and (4) animated 2D graphics, including 2D cross‐sections that represent different “slices” of the embryo, and animate in parallel. These elements were presented in two tutorials, one depicting embryonic folding and the other showing development of the nervous system after neural tube formation. The goal was to enhance the traditional teaching format—lecture combined with printed diagrams, text, and existing computer animations—with customized, guided, Web‐based learning modules that surpassed existing resources. To assess module effectiveness, we compared quiz performance of control groups who attended lecture and did not use a supporting module, with study groups who used a module in addition to attending lecture. We also assessed our students' long‐term retention of the material, comparing classes who had used the module with students from a previous year that had not seen the module. Our data analysis suggests that students who used a module performed better than those given only traditional resources if they used the module after they were already somewhat familiar with the material. The findings suggest that our modules—and possibly computer‐assisted‐instruction modules in general—are more useful if used toward the later stages of learning, rather than as an initial resource. Furthermore, our data suggest that the animation aids in long‐term retention. Both medical students at the University of Cincinnati and medical faculty from across the country commented favorably on their experiences with the embryonic development modules. Anat Sci Ed 1:252–257, 2008. © 2008 American Association of Anatomists. 相似文献
19.
A qualitative case study of 17 high‐school students identified as at risk for dropping out, this research develops a grounded theory describing the process of students' persistence and the support they received from teachers and school administrators. Three interactive factors appear critical to persistence: (a) goal orientation—students' belief they will benefit from graduating, (b) willingness to play the game—students' willingness to follow school rules, and (c) meaningful connections—relationships with teachers who believed students could graduate and provided support and caring. All three factors were present for students who stayed through the school year whereas one or more was absent from the experiences of the students who left school before graduation. The research provides further support for the role of schools in supporting students' persistence and has implications for how schools support students who are struggling to stay in school. © 2006 Wiley Periodicals, Inc. Psychol Schs 43: 599–611, 2006. 相似文献
20.
Cathy Smith 《British Journal of Sociology of Education》2020,41(2):160-177
AbstractThis paper examines how young people account for choosing mathematical subjects, and how these processes sustain, or not, their continued participation. It draws on a 2-year qualitative study of 24 young people’s accounts of following advanced mathematical pathways within a widening participation programme. Working within a post-structural framework, I combine two arguments: firstly, that local discourses of time, age and maturity position contemporary adolescence as a time of ‘becoming’ that aligns personal aspirations with mathematical progress, and secondly that students’ accounts of choice and aspiration require multiple imaginings of present and future selves. I identify distinct discourses –moving/improving and getting ahead - that structure the intelligibility of participation in mathematics and further mathematics respectively. I argue that tracing the alignments between students’ accounts of themselves and/ in mathematics offers potential to understand emergent practices in mathematics participation but also how exclusions are re-inscribed along classed and gendered lines. 相似文献