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1.
Mengxiao Zhu Hee-Sun Lee Ting Wang Ou Lydia Liu Vinetha Belur Amy Pallant 《International Journal of Science Education》2013,35(12):1648-1668
ABSTRACTThis study investigates the role of automated scoring and feedback in supporting students’ construction of written scientific arguments while learning about factors that affect climate change in the classroom. The automated scoring and feedback technology was integrated into an online module. Students’ written scientific argumentation occurred when they responded to structured argumentation prompts. After submitting the open-ended responses, students received scores generated by a scoring engine and written feedback associated with the scores in real-time. Using the log data that recorded argumentation scores as well as argument submission and revisions activities, we answer three research questions. First, how students behaved after receiving the feedback; second, whether and how students’ revisions improved their argumentation scores; and third, did item difficulties shift with the availability of the automated feedback. Results showed that the majority of students (77%) made revisions after receiving the feedback, and students with higher initial scores were more likely to revise their responses. Students who revised had significantly higher final scores than those who did not, and each revision was associated with an average increase of 0.55 on the final scores. Analysis on item difficulty shifts showed that written scientific argumentation became easier after students used the automated feedback. 相似文献
2.
Ying Zhan 《Technology, Pedagogy and Education》2017,26(4):501-515
Recently, technology-supported formative assessment has caught researchers’ increasing attention. Most of the relevant studies have been carried out in experimental situations to demonstrate the effectiveness of technology-supported formative assessment for learning. However, little is still known about how technology-supported formative assessment is viewed and experienced by teachers in their classrooms. To fill this gap, this study investigated teachers’ voices and practices when they used a formative assessment multimedia learning environment (FAMLE) in their classrooms during three semesters, which involved continuous platform refinement. The findings show that the teachers encountered a number of problems in four major aspects, namely students’ engagement, assessment task design, feedback and follow-up issues. FAMLE went through corresponding refinement in two rounds. A change was evident in teachers’ pedagogical practice of FAMLE from summative and revision use, diagnostic use, to integrative use. 相似文献
3.
Mehmet Aydeniz Zehra Ozdilek 《International Journal of Science and Mathematics Education》2016,14(7):1255-1273
The purpose of this study was to explore the impact of an intervention on pre-service science teachers’ self-efficacy to teach science through argumentation and explore the challenges they experienced while implementing argumentation. Forty pre-service science teachers in their final semester of schooling participated in an intervention that lasted for 11 weeks. Intervention focused on participants’ understanding of argumentation as a scientific practice and as a pedagogical tool. The participants engaged in argument construction, evaluation, and critique, taught three argumentation lessons, engaged in peer observation of teaching, and reflection on their teaching skills. Data were collected through Argumentation Self-Efficacy Scale and an open-ended questionnaire. The results show that the intervention had a significantly positive effect on pre-service teachers’ self-efficacy. Despite this reported self-efficacy, participants experienced significant challenges in guiding their students to construct scientific arguments and assessing the arguments developed by their students. Discussion focuses on implications for professional development of pre-service and in-service science teachers. 相似文献
4.
Pablo Antonio Archila Jorge Molina Anne-Marie Truscott de Mejía 《International Journal of Science Education》2018,40(13):1669-1695
Formative assessment, bilingualism, and argumentation when combined can enrich bilingual scientific literacy. However, argumentation receives little attention in the practice of bilingual science education. This article describes the effect of a formative assessment-based pedagogical strategy in promoting university students’ argumentation. It examines the written and oral arguments produced by 54 undergraduates (28 females and 26 males, 16–21 years old) in Colombia during a university bilingual (Spanish-English) science course. The data used in this analysis was derived from students’ written responses, and audio and video recordings. The first goal of this study was to determine how this teaching strategy could help students increase the use of English as a means of communication in argumentation in science. The second goal was to establish the potential of the strategy to engage students in argumentative classroom interactions as an essential part of formative assessment. The findings show that the strategy provided participants with opportunities to write their argumentation in Spanish, in English and in a hybrid version using code-switching. Educational implications for higher education are discussed. 相似文献
5.
Christopher D. Wilson Kevin C. Haudek Jonathan F. Osborne Zoë E. Buck Bracey Tina Cheuk Brian M. Donovan Molly A. M. Stuhlsatz Marisol M. Santiago Xiaoming Zhai 《科学教学研究杂志》2024,61(1):38-69
Argumentation is fundamental to science education, both as a prominent feature of scientific reasoning and as an effective mode of learning—a perspective reflected in contemporary frameworks and standards. The successful implementation of argumentation in school science, however, requires a paradigm shift in science assessment from the measurement of knowledge and understanding to the measurement of performance and knowledge in use. Performance tasks requiring argumentation must capture the many ways students can construct and evaluate arguments in science, yet such tasks are both expensive and resource-intensive to score. In this study we explore how machine learning text classification techniques can be applied to develop efficient, valid, and accurate constructed-response measures of students' competency with written scientific argumentation that are aligned with a validated argumentation learning progression. Data come from 933 middle school students in the San Francisco Bay Area and are based on three sets of argumentation items in three different science contexts. The findings demonstrate that we have been able to develop computer scoring models that can achieve substantial to almost perfect agreement between human-assigned and computer-predicted scores. Model performance was slightly weaker for harder items targeting higher levels of the learning progression, largely due to the linguistic complexity of these responses and the sparsity of higher-level responses in the training data set. Comparing the efficacy of different scoring approaches revealed that breaking down students' arguments into multiple components (e.g., the presence of an accurate claim or providing sufficient evidence), developing computer models for each component, and combining scores from these analytic components into a holistic score produced better results than holistic scoring approaches. However, this analytical approach was found to be differentially biased when scoring responses from English learners (EL) students as compared to responses from non-EL students on some items. Differences in the severity between human and computer scores for EL between these approaches are explored, and potential sources of bias in automated scoring are discussed. 相似文献
6.
Researchers have emphasized the importance of promoting argumentation in science classrooms for various reasons. However, the study of argumentation is still a young field and more research needs to be carried out on the tools and pedagogical strategies that can assist teachers and students in both the construction and evaluation of scientific arguments. Thus, the aim of this study was to evaluate the impact of argumentation on students’ conceptual learning in dynamics. True-experimental design using quantitative research methods was carried out for the study. The participants of the study were tenth graders studying in two classes in an urban all-girls school. There were 26 female students in each class. Five argumentations promoted in the different contexts were embedded through the dynamics unit over a 10-week duration. The study concludes that engaging in the argumentative process that involves making claims, using data to support these claims, warranting the claims with scientific evidence, and using backings, rebuttals, and qualifiers to further support the reasoning, reinforces students’ understanding of science, and promotes conceptual change. The results suggest that argumentation should be employed during instruction as a way to enable conceptual learning. 相似文献
7.
This paper is based on a study of classroom practice of primary school teachers who were engaged in a programme of professional development to implement formative assessment in their classrooms. The programme sought to develop the skills and expertise of teachers to enable formative assessment to be used to support and improve the learning of students. This study examined changes in practice in these teachers’ classrooms, their students’ learning experiences, pedagogical decision‐making, and the challenges experienced by teachers and students in developing assessment for learning. Activity theory was used as an analytical tool and enabled the identification of important contradictions in the changing system that produced tensions and difficulties but also provided driving forces for change. The development of formative assessment practices was of necessity accompanied by a culture change in the complex classroom systems. For teachers change was characterised as a process of expansive learning that was motivated by a contradiction between the teachers’ beliefs about learning and the existing culture in the classroom. The change in classroom practice was enabled by the formative assessment philosophy and a range of mediating artefacts. 相似文献
8.
William A. Sandoval Noel Enyedy Elizabeth H. Redman Sihan Xiao 《International Journal of Science Education》2013,35(13):1848-1869
ABSTRACTMost of the research on argumentation in science education has documented the myriad flaws in students’ argumentation, and the difficulties teachers have organising productive arguments in the classroom. We apply a sociocultural framework to argue that productive argumentation emerges from a classroom culture in which its practice meaningfully serves classroom goals. We present a case study using interaction analysis to contrast two elementary teachers’ efforts to organise productive scientific argumentation in their classrooms. One teacher used discourse moves to orient students to each other’s contributions in ways the other did not, reflecting differences in underlying aims for collective versus individual sense-making. This analysis shows that connecting discourse practices specifically to a goal of collective sense-making promotes productive argumentation. 相似文献
9.
AnnaMarie Conner Laura M. Singletary Ryan C. Smith Patty Anne Wagner Richard T. Francisco 《Educational Studies in Mathematics》2014,86(3):401-429
We propose a framework for examining how teachers may support collective argumentation in secondary mathematics classrooms, including teachers’ direct contributions to arguments, the kinds of questions teachers ask, and teachers’ other supportive actions. We illustrate our framework with examples from episodes of collective argumentation occurring across 2 days in a teacher’s classroom. Following from these examples, we discuss how the framework can be used to examine mathematical aspects of conversations in mathematics classrooms. We propose that the framework is useful for investigating and possibly enhancing how teachers support students’ reasoning and argumentation as fundamentally mathematical activities. 相似文献
10.
Janis A. Bulgren James D. Ellis Janet G. Marquis 《Journal of Science Education and Technology》2014,23(1):82-97
This study explored teachers’ use of the Argumentation and Evaluation Intervention (AEI) and associated graphic organizer to enhance the performance of students in middle and secondary science classrooms. The results reported here are from the third year of a design study during which the procedures were developed in collaboration with teachers. A quasi-experimental pretest–posttest design with 8 experimental and 8 control teachers was used with a total of 282 students. An open-ended test assessed students’ abilities to evaluate a scientific argument made in an article. The students were asked to identify the claim and its qualifiers, identify and evaluate the evidence given for the claim, examine the reasoning in support of the claim, consider counterarguments, and construct and explain a conclusion about the claim. The quality of students’ responses was assessed using a scoring rubric for each step of the argumentation process. Findings indicated a significantly higher overall score and large effect size in favor of students who were instructed using the AEI compared to students who received traditional lecture–discussion instruction. Subgroup and subscale scores are also presented. Teacher satisfaction and student satisfaction and confidence levels are reported. 相似文献
11.
Because there has been very little past research into gifted students’ science learning environments, especially in Singapore, we selected from four established questionnaires six learning environment scales that are consistent with Van Tassel-Baska and Stambaugh’s guidelines for gifted education. These scales were modified slightly to enhance suitability for the target population and refined further based on feedback from teachers and students in a pilot study. Data from administration of the questionnaires to 722 gifted science students in grades 9 and 10 were analysed to provide support for the questionnaire’s factorial validity, internal consistency reliability, ability to differentiate between classrooms, and predictive validity (in terms of associations with self-efficacy). To evaluate a new one-student one-laptop program being implemented for the first time, we compared the learning environments of this program with regular classrooms and found higher levels of perceived investigation, task orientation, collaboration, computer usage and formative assessment in technology-based classrooms.
相似文献12.
Bo Pei Wanli Xing Hee-Sun Lee 《British journal of educational technology : journal of the Council for Educational Technology》2019,50(6):3391-3404
Science classes should support students' development of scientific argumentation. While previous studies have analyzed argumentative texts, they have overlooked the ways in which other types of representations, including images, affect the production of such texts. In addition, studies into the use of visual images in science education have offered mostly qualitative analyses. To fill these gaps in the research, this study used techniques of automated image processing to extract relevant information from student-generated visual artifacts. Specifically, it used a series of image-processing algorithms to automatically extract and quantify features of images created by students to serve as evidence in support of scientific arguments. Using various statistical analyses, we identified the relationships between the extracted features and the students' performance levels in constructing scientific arguments. The results revealed that the presence of water in a student's image correlated significantly with that student's claim and explanation scores and that the amount of water present in a student's image correlated significantly with that student's claim score, but not with their explanation score. These results indicate that automatic image processing can successfully identify image features that affect students' performance in scientific argumentation. Using this analysis as an example, we discuss implications for incorporating automated image processing into further research into scientific argumentation and the development of automated feedback. 相似文献
13.
Tony Burner 《Scandinavian Journal of Educational Research》2016,60(6):626-648
Recognizing the importance of formative assessment, this mixed-methods study investigates how four teachers and 100 students respond to the new emphasis on formative assessment in English as a foreign language (EFL) writing classes in Norway. While previous studies have examined formative assessment in oral classroom interactions and focused on either studying students or teachers, little research has been conducted on formative assessment of writing where both students and teachers are studied. As such, this study provides new insight. The findings mostly indicate that contradictions are prevalent amongst teachers’ and students’ perceptions of formative assessment of writing. The contradictions revolve around feedback, grades, text revision, self-assessment, and student involvement. The identified contradictions suggest the need for developing a mutual understanding of formative assessment in order to make it useful and meaningful. 相似文献
14.
Typical assessment systems often measure isolated ideas rather than the coherent understanding valued in current science classrooms. Such assessments may motivate students to memorize, rather than to use new ideas to solve complex problems. To meet the requirements of the Next Generation Science Standards, instruction needs to emphasize sustained investigations, and assessments need to create a detailed picture of students’ conceptual understanding and reasoning processes.This article describes the design process and potential for automated scoring of 2 forms of inquiry assessment: Energy Stories and MySystem. To design these assessments, we formed a partnership of teachers, discipline experts, researchers, technologists, and psychometricians to align curriculum, assessments, and rubrics. We illustrate how these items document middle school students’ reasoning about energy flow in life science. We used evidence from review by science teachers and experts in the discipline; classroom experiments; and psychometric analysis to validate the assessments, rubrics, and automated scoring. 相似文献
15.
Mihye Won Heiko Krabbe Siv Ling Ley David F. Treagust Hans E. Fischer 《Educational Assessment》2017,22(2):95-110
In this study, we investigated the value of a concept map marking guide as an alternative formative assessment tool for science teachers to adopt for the topic of energy. Eight high school science teachers marked students’ concept maps using an itemized holistic marking guide. Their marking was compared with the researchers’ marking and the scores of a multiple-choice diagnostic test. Statistical analysis revealed that teachers evaluated students’ concept maps consistently, but the concept map scores were only mildly correlated with the multiple-choice test scores. We explored what each assessment method revealed in terms of students’ understanding with one student’s performance as a showcase. Teachers’ views on using the marking guide of concept maps as an assessment tool were also included. We discuss the value of the concept map marking guide as a formative assessment tool for science teachers to create and modify in order to encourage students’ conceptual learning. 相似文献
16.
Ebru Kaya 《Cultural Studies of Science Education》2018,13(4):1087-1090
In this review essay I respond to issues raised in Mijung Kim and Wolff-Michael Roth’s paper titled “Dialogical argumentation in elementary science classrooms”, which presents a study dealing with dialogical argumentation in early elementary school classrooms. Since there is very limited research on lower primary school students’ argumentation in school science, their paper makes a contribution to research on children’s argumentation skills. In this response, I focus on two main issues to extend the discussion in Kim and Roth’s paper: (a) methodological issues including conducting a quantitative study on children’s argumentation levels and focusing on children’s written argumentation in addition to their dialogical argumentation, and (b) investigating children’s conceptual understanding along with their argumentation levels. Kim and Roth emphasize the difficulty in determining the level of children’s argumentation through the Toulmin’s Argument Pattern and lack of high level arguments by children due to their difficulties in writing texts. Regarding these methodological issues, I suggest designing quantitative research on coding children’s argument levels because such research could potentially provide important findings on children’s argumentation. Furthermore, I discuss alternative written products including posters, figures, or pictures generated by children in order to trace children’s arguments, and finally articulating argumentation and conceptual understanding of children. 相似文献
17.
Jonathan T. Shemwell Kalee R. Gwarjanski Daniel K. Capps Shirly Avargil Joanna L. Meyer 《International Journal of Science Education》2013,35(4):599-628
In scientific arguments, claims must have meaning that extends beyond the immediate circumstances of an investigation. That is, claims must be generalised in some way. Therefore, teachers facilitating classroom argumentation must be prepared to support students’ efforts to construct or criticise generalised claims. However, widely used argumentation support tools, for instance, the claim-evidence-reasoning (CER) framework, tend not to address generalisation. Accordingly, teachers using these kinds of tools may not be prepared to help their students negotiate issues of generalisation in arguments. We investigated this possibility in a study of professional development activities of 18 middle school teachers using CER. We compared the teachers’ approach to generalisation when using a published version of CER to their approach when using an alternate form of CER that increased support for generalisation. In several different sessions, the teachers: (1) responded to survey questions when using CER, (2) critiqued student arguments, (3) used both CER and alternate CER to construct arguments, and (4) discussed the experience of using CER and alternate CER. When using the standard CER, the teachers did not explicitly attend to generalisation in student arguments or in their own arguments. With alternate CER, the teachers generalised their own arguments, and they acknowledged the need for generalisation in student arguments. We concluded that teachers using frameworks for supporting scientific argumentation could benefit from more explicit support for generalisation than CER provides. More broadly, we concluded that generalisation deserves increased attention as a pedagogical challenge within classroom scientific argumentation. 相似文献
18.
Anne Deiglmayr 《European Journal of Psychology of Education - EJPE》2018,33(1):185-198
Formative peer assessment is an instructional method that offers many opportunities to foster students’ learning with respect to both the domain of the core task and students’ assessment skills. The contributions to this special issue effectively address earlier calls for more research into instructional scaffolds and the implementation of dialogic features in formative peer assessment. However, open issues remain regarding the role of assessment criteria, the benefit of formative peer assessment for transferable knowledge and skills, the role of metacognitive and cognitive processes in the provision and reception of peer feedback, and the proposed benefit of more interactive forms of formative peer assessment. Addressing the latter issue in particular, a framework of three dimensions of increasing interactivity is proposed in order to guide future research. These three dimensions comprise the learner’s engagement with the core task (low interactivity), the provision and reception of peer feedback (medium interactivity), and the learner’s engagement with argumentation, tutoring, and co-construction in dialogue with peers (high interactivity). 相似文献
19.
Yasemin Ozdem Hamide Ertepinar Jale Cakiroglu Sibel Erduran 《International Journal of Science Education》2013,35(15):2559-2586
The aim of this study was to investigate the kinds of argumentation schemes generated by pre-service elementary science teachers (PSTs) as they perform inquiry-oriented laboratory tasks, and to explore how argumentation schemes vary by task as well as by experimentation and discussion sessions. The model of argumentative and scienti?c inquiry was used as a design framework in the present study. According to the model, the inquiry of scientific topics was employed by groups of participants through experimentation and critical discussion sessions. The participants of the study were 35 PSTs, who teach middle school science to sixth through eighth grade students after graduation. The data were collected through video- and audio-recordings of the discussions made by PSTs in six inquiry-oriented laboratory sessions. For the analysis of data, pre-determined argumentation schemes by Walton were employed. The results illustrated that PSTs applied varied premises rather than only observations or reliable sources to ground their claims or to argue for a case or an action. It is also worthy of notice that the construction and evaluation of scientific knowledge claims resulted in different numbers and kinds of arguments. Results of this study suggest that designing inquiry-oriented laboratory environments, which are enriched with critical discussion, provides discourse opportunities that can support argumentation. Moreover, PSTs can be encouraged to support and promote argumentation in their future science classrooms if they engage in argumentation integrated instructional strategies. 相似文献
20.
Current research indicates that student engagement in scientific argumentation can foster a better understanding of the concepts and the processes of science. Yet opportunities for students to participate in authentic argumentation inside the science classroom are rare. There also is little known about science teachers' understandings of argumentation, their ability to participate in this complex practice, or their views about using argumentation as part of the teaching and learning of science. In this study, the researchers used a cognitive appraisal interview to examine how 30 secondary science teachers evaluate alternative explanations, generate an argument to support a specific explanation, and investigate their views about engaging students in argumentation. The analysis of the teachers' comments and actions during the interview indicates that these teachers relied primarily on their prior content knowledge to evaluate the validity of an explanation rather than using available data. Although some of the teachers included data and reasoning in their arguments, most of the teachers crafted an argument that simply expanded on a chosen explanation but provided no real support for it. The teachers also mentioned multiple barriers to the integration of argumentation into the teaching and learning of science, primarily related to their perceptions of students' ability levels, even though all of these teachers viewed argumentation as a way to help students understand science. © 2012 Wiley Periodicals, Inc. J Res Sci Teach 49: 1122–1148, 2012 相似文献