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1.
Prior research shows that representational competencies that enable students to use graphical representations to reason and solve tasks is key to learning in many science, technology, engineering, and mathematics domains. We focus on two types of representational competencies: (1) sense making of connections by verbally explaining how different representations map to one another, and (2) perceptual fluency that allows students to fast and effortlessly use perceptual features to make connections among representations. Because these different competencies are acquired via different types of learning processes, they require different types of instructional support: sense-making activities and fluency-building activities. In a prior experiment, we showed benefits for combining sense-making activities and fluency-building activities. In the current work, we test how to combine these two forms of instructional support, specifically, whether students should first work on sense-making activities or on fluency-building activities. This comparison allows us to investigate whether sense-making competencies enhance students’ acquisition of perceptual fluency (sense-making-first hypothesis) or whether perceptual fluency enhances students’ acquisition of sense-making competencies (fluency-first hypothesis). We conducted a lab experiment with 74 students from grades 3–5 working with an intelligent tutoring system for fractions. We assessed learning processes and learning outcomes related to representational competencies and domain knowledge. Overall, our results support the sense-making-first hypothesis, but not the fluency-first hypothesis. 相似文献
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The aim of this study was to examine the potential impact of the representational characteristics of models and students’ educational levels on students’ views of scientific models and modeling (VSMM). An online multimedia questionnaire was designed to address three major aspects of VSMM, namely the nature of models, the nature of modeling, and the purpose of models. The three scales of representational characteristics included modality, dimensionality, and dynamics. A total of 102 eighth graders and 87 eleventh graders were surveyed. Both quantitative data and written responses were analyzed. The influence of the representational characteristics seemed to be more salient on the nature of models and the purpose of models. Some interactions between the educational levels and the representational characteristics showed that the high school students were more likely to recognize textual representations and pictorial representations as models, while also being more likely to appreciate the differences between 2D and 3D models. However, some other differences between educational levels did not necessarily suggest that the high school students attained more sophisticated VSMM. For instance, in considering what information should be included in a model, students’ attention to particular affordances of the representation can lead to a more naive view of modeling. Implications for developing future questionnaires and for teaching modeling are suggested in this study. 相似文献
3.
Martina A. Rau 《Instructional Science》2018,46(2):209-243
To learn content knowledge in science, technology, engineering, and math domains, students need to make connections among visual representations. This article considers two kinds of connection-making skills: (1) sense-making skills that allow students to verbally explain mappings among representations and (2) perceptual fluency in connection making that allows students to fast and effortlessly use perceptual features to make connections among representations. These different connection-making skills are acquired via different types of learning processes. Therefore, they require different types of instructional support: sense-making activities and fluency-building activities. Because separate lines of research have focused either on sense-making skills or on perceptual fluency, we know little about how these connection-making skills interact when students learn domain knowledge. This article describes two experiments that address this question in the context of undergraduate chemistry learning. In Experiment 1, 95 students were randomly assigned to four conditions that varied whether or not students received sense-making activities and fluency-building activities. In Experiment 2, 101 students were randomly assigned to five conditions that varied whether or not and in which sequence students received sense-making and fluency-building activities. Results show advantages for sense-making and fluency-building activities compared to the control condition only for students with high prior chemistry knowledge. These findings provide new insights into potential boundary conditions for the effectiveness of different types of instructional activities that support students in making connections among multiple visual representations. 相似文献
4.
Chemistry knowledge can be represented at macro-, micro- and symbolic levels, and learning a chemistry topic requires students to engage in multiple representational activities. This study focused on scaffolding for inter-level connection-making in learning chemistry knowledge with graphical simulations. We also tested whether different sequences of representational activities produced different student learning outcomes in learning a chemistry topic. A sample of 129 seventh graders participated in this study. In a simulation-based environment, participants completed three representational activities to learn several ideal gas law concepts. We conducted a 2 × 3 factorial design experiment. We compared two scaffolding conditions: (1) the inter-level scaffolding condition in which participants received inter-level questions and experienced the dynamic link function in the simulation-based environment and (2) the intra-level scaffolding condition in which participants received intra-level questions and did not experience the dynamic link function. We also compared three different sequences of representational activities: macro-symbolic-micro, micro-symbolic-macro and symbolic-micro-macro. For the scaffolding variable, we found that the inter-level scaffolding condition produced significantly better performance in both knowledge comprehension and application, compared to the intra-level scaffolding condition. For the sequence variable, we found that the macro-symbolic-micro sequence produced significantly better knowledge comprehension performance than the other two sequences; however, it did not benefit knowledge application performance. There was a trend that the treatment group who experienced inter-level scaffolding and the micro-symbolic-macro sequence achieved the best knowledge application performance. 相似文献
5.
Jing-Wen Lin 《Journal of Science Education and Technology》2016,25(3):497-511
This study adopted a quasi-experimental design with follow-up interview to develop a computer-based two-tier assessment (CBA) regarding the science topic of electric circuits and to evaluate the diagnostic power of the assessment. Three assessment formats (i.e., paper-and-pencil, static computer-based, and dynamic computer-based tests) using two-tier items were conducted on Grade 4 (n = 90) and Grade 5 (n = 86) students, respectively. One-way ANCOVA was conducted to investigate whether the different assessment formats affected these students’ posttest scores on both the phenomenon and reason tiers, and confidence rating for an answer was assessed to diagnose the nature of students’ responses (i.e., scientific answer, guessing, alternative conceptions, or knowledge deficiency). Follow-up interview was adopted to explore whether and how the various CBA representations influenced both graders’ responses. Results showed that the CBA, in particular the dynamic representation format, allowed students who lacked prior knowledge (Grade 4) to easily understand the question stems. The various CBA representations also potentially encouraged students who already had learning experience (Grade 5) to enhance the metacognitive judgment of their responses. Therefore, CBA could reduce students’ use of test-taking strategies and provide better diagnostic power for a two-tier instrument than the traditional paper-based version. 相似文献
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Akın Efendioğlu 《Educational technology research and development : ETR & D》2018,66(6):1359-1385
The main purpose of the study is to develop a Facebook Effect Scale on Teacher Quality (FESTQ) based on the pedagogical content knowledge, technological pedagogical content knowledge and lifelong learning frameworks. Study participants comprised 556 teachers. Explanatory factor analysis and confirmatory factor analysis were conducted in the development and testing of the FESTQ. The results showed that the FESTQ is reliable and valid to measure Facebook effect on teacher quality. The FESTQ consists of 40 positive six-point Likert-type items along with six factors, instructional knowledge for in-class applications, general culture knowledge, individual characteristics, instructional knowledge related to student characteristics, instructional knowledge for preparing an assessment tool and special content area knowledge. The psychometric properties of the FESTQ, the study limitations and suggestions for future studies are discussed. 相似文献
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Karthigeyan Subramaniam 《Journal of Science Education and Technology》2016,25(4):527-540
This paper describes a qualitative study that investigated the nature of the participation structures and how the participation structures were organized by four science teachers when they constructed and communicated science content in their classrooms with computer technology. Participation structures focus on the activity structures and processes in social settings like classrooms thereby providing glimpses into the complex dynamics of teacher–students interactions, configurations, and conventions during collective meaning making and knowledge creation. Data included observations, interviews, and focus group interviews. Analysis revealed that the dominant participation structure evident within participants’ instruction with computer technology was (Teacher) initiation–(Student and Teacher) response sequences–(Teacher) evaluate participation structure. Three key events characterized the how participants organized this participation structure in their classrooms: setting the stage for interactive instruction, the joint activity, and maintaining accountability. Implications include the following: (1) teacher educators need to tap into the knowledge base that underscores science teachers’ learning to teach philosophies when computer technology is used in instruction. (2) Teacher educators need to emphasize the essential idea that learning and cognition is not situated within the computer technology but within the pedagogical practices, specifically the participation structures. (3) The pedagogical practices developed with the integration or with the use of computer technology underscored by the teachers’ own knowledge of classroom contexts and curriculum needs to be the focus for how students learn science content with computer technology instead of just focusing on how computer technology solely supports students learning of science content. 相似文献
8.
Silvia Wen-Yu Lee 《International Journal of Science and Mathematics Education》2018,16(8):1409-1430
The purpose of this study was, first, to understand the item hierarchy regarding students’ understanding of scientific models and modeling (USM). Secondly, this study investigated Taiwanese students’ USM progression from 7th to 12th grade, and after participating in a model-based curriculum. The questionnaire items were developed based on 6 aspects of USM, namely, model type, model content, constructed nature of models, multiple models, change of models, and purpose of models. Moreover, 10 representations of models were included for surveying what a model is. Results show that the purpose of models and model type items covered a wide range of item difficulties. At the one end, items for the purpose of models are most likely to be endorsed by the students, except for the item “models are used to predict.” At the other end, the “model type” items tended to be difficult. The students were least likely to agree that models can be text, mathematical, or dynamic. The items of the constructed nature of models were consistently located above the average, while the change of models items were consistently located around the mean level of difficulty. In terms of the natural progression of USM, the results show significant differences between 7th grade and all grades above 10th, and between 8th grade and 12th grade. The students in the 7th grade intervention group performed better than the students in the 7th and 8th grades who received no special instruction on models. 相似文献
9.
“Student voice” (SV) refers to listening to and valuing students’ views regarding their learning experiences, as well as treating them as equal partners in the evaluation process. This is expected, in turn, to empower students to take a more active role in shaping their learning. This study explores the role played by digital technologies in creating a space for SV in academia. The qualitative study was conducted in an academic course, which combines face-to face, synchronous lessons with a variety of asynchronous self-directed and group learning activities. The participants were 54 Master’s students in education. We analyzed the pedagogical design of the course, as well as interpretations of teaching, learning, assessment, and the role of technology as experienced and presented by the students. The findings demonstrated that students functioned as co-designers of the course content, co-creators of teaching and of their own learning experience. Students perceived the requirements of active learning, teamwork, and community participation (i.e., an advanced way of conveying SV—leadership; Mitra International handbook of student experience in elementary and secondary school, Springer Publishers, The Netherlands, 2007), as both challenges related to overload and stress, and benefits related to the gains of meaningful learning, innovative pedagogical design, and diverse instructional methods. The equalization effect of the digital environment, which diminishes status cues changed the power dynamic, promoted students’ active participation and their pedagogical partnership with the instructor. Based on the findings, our conceptualization of SV and its implications for academia includes: (1) co-design of content, (2) co-teaching, (3) co-creation of learning experience and outcomes, and (4) embedded co-assessment for learning. 相似文献
10.
Despite growing recognition of the importance of visual representations to science education, previous research has given attention mostly to verbal modalities of evolution instruction. Visual aspects of classroom learning of evolution are yet to be systematically examined by science educators. The present study attends to this issue by exploring the types of evolutionary imagery deployed by secondary students. Our visual design analysis revealed that students resorted to two larger categories of images when visually communicating evolution: spatial metaphors (images that provided a spatio-temporal account of human evolution as a metaphorical “walk” across time and space) and symbolic representations (“icons of evolution” such as personal portraits of Charles Darwin that simply evoked evolutionary theory rather than metaphorically conveying its conceptual contents). It is argued that students need opportunities to collaboratively critique evolutionary imagery and to extend their visual perception of evolution beyond dominant images. 相似文献
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Ina ter Avest 《International Review of Education/Internationale Zeitschrift für Erziehungswissenschaft/Revue internationale l'éducation》2017,63(1):71-86
To prepare Dutch students in education for critical situations in their professional life as a teacher, part of their training is to ask them to reflect upon their own experiences in their life as a child, a pupil and a student – experiences of crucial moments or with significant others which are still of the utmost importance to them. This article underlines the significance of so-called “experiential learning” in student career counselling. In this context, experiential learning is understood as an extension of in-depth reflection on critical incidents and critical persons in the biography of pre-service teachers. This reflection – customary and effective in Dutch teacher training – is a verbal process. However, this technique does not seem to be adequate for many students from other cultural backgrounds (e.g. second-generation descendants of migrant workers). By consequence, some of these students are not able to take newly offered information on board, but remain imprisoned in their own culture-related narrative, their own ethnic society of mind. Research has shown that for these students, psychodrama techniques, focusing on non-verbal and playful aspects of reflection, seem to be more suitable. The author of this article presents a sample case from a pilot study which used one of the psychodrama techniques called the empty chair. The findings of the pilot study are promising in the sense that experiencing different I-positions does seem to help students from other cultural backgrounds to develop agency in responding to hitherto unfamiliar and confusing situations. 相似文献
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Irina Rosa Kumschick Valentina Piwowar Diemut Ophardt Victoria Barth Katharina Krysmanski Felicitas Thiel 《Zeitschrift für Erziehungswissenschaft》2017,20(1):93-113
The following study aims to explore whether a video- and problem-based learning (PBL) environment can be improved using cognitive tools. Our hypothesis is that direct instructions in a PBL setting enhance pre-service teachers’ learning outcomes in classroom management. To answer this research question, we implemented a pre-post-design within which we assigned 237 master students to two learning environments: Classic problem-based learning (PBL), where students acquired central theoretical concepts and empirical findings on dealing with disruptions in groups (n = 113) or instructed problem-based learning (I-PBL), where students received extensive theoretical instructions (n = 124) during the first two seminar sessions. In the framework of a longitudinal self-report assessment we found that (1) teacher self-efficacy in the subscales “student engagement”, “instruction” and “classroom management competencies” increased in students of both groups. The highest increase was found in classroom management competencies. (2) In the evaluation with an objective measure students participating in the I?PBL group showed greater knowledge than students in the PBL group (multiple-choice test), and (3) regarding motivational processes students in the PBL group reported a higher degree of identification than students in the I?PBL group. 相似文献
14.
Junfei Lu 《International journal for the advancement of counseling》2017,39(1):14-27
This study refined the Multicultural Counseling Knowledge and Awareness Scale (MCKAS; Ponterotto et al. Journal of Multicultural Counseling and Development, 30, 153–180, 2002) in response to concerns in the literature (e.g., Constantine et al. Cultural Diversity and Ethnic Minority Psychology, 8(4), 334–345, 2002) focusing on original sample representation, factor structure, and constructs of interest within this scale. For this refinement study, a total of 176 participants from various counseling fields in the United States completed an online survey. The results of an exploratory factor analysis presented a 28-item 2-factor refined version of the MCKAS (MCKAS-R). The preliminary MANOVA analysis indicated that this refined scale differentiated multicultural counseling competencies of participants who were counselors, counseling students, and counselor educators. Implications of this scale for counselor training, practice, and future research are provided. 相似文献
15.
Andreas Sander Annika Ohle-Peters Ilonca Hardy Nele McElvany 《Zeitschrift für Erziehungswissenschaft》2018,21(5):951-971
Disparities in language competencies of children with and without immigrant background are well-documented through large scale assessments. This study investigates the potential of implicit language promotion, presented in written and combined auditory-written formats. Three experimental groups of 4th graders in elementary schools have been compared. Intervention group (IV) 1 (n?=?33) read the intervention texts two times in German, IV 2 (n?=?52) read texts in their heritage language Turkish and afterwards in German, and IV 3 (n?=?35) listened to texts in Turkish first and read them in German afterwards. All children learned new vocabulary, but analyses of variance showed that students from IV 2 achieved greater vocabulary gains than IV 3. Results also do not support advantages for the combined auditory-written form including the heritage language. Students’ text comprehension and reading competencies influence their incidental vocabulary acquisition. The results are discussed in the light of practical and research implications. 相似文献
16.
Dorit Alt 《Learning Environments Research》2017,20(1):99-119
The increasing calls for diversity research signal a need to explore contemporary learning and instruction strategies that respond to diversity in courses and curricula. The major objective of this research was to measure the level of openness to diversity and challenge (ODC) among college students as a function of their perceived constructivist learning environment in traditional lecture-based courses (LBE) and seminars (SM). The study included 243 undergraduate students. Data were gathered using the Constructivist Learning in Higher Education Settings scale (CLHES), which measures students’ perceptions of the occurrence of constructivist practices in learning environments along three dimensions of constructive activity, teacher–student interaction and social activity, and the Openness to Diversity and Challenge scale. Structural equation modelling (SEM) results indicated a positive connection between the general factor of CLHES and ODC over and above several pre-entry variables such as gender and culture. According to a further SEM analysis, the social activity variable mainly explained the ODC variable whereas the teacher–student interaction factor was mainly connected to the constructive activity variable. Multivariate analysis of variance results indicated that students enrolled in SM perceived this environment as more constructivist and reported having higher levels of feelings of ODC than LBE students. Interpretation of these findings, in conjunction with theory, applications, and implications for future research are discussed. 相似文献
17.
Team teaching is becoming more common in undergraduate programmes of study although the relative merits to the more traditional individually taught courses have not been determined for best practice. For this study, 15 final-year undergraduate computer science students were interviewed to gain insight into their learning experiences. A thematic analysis of the interview data identified the perceived advantages and disadvantages of each mode of teaching. The advantages of individually taught courses included: consistency of content delivery and advice, familiarity with the lecturer’s teaching style and better continuity of the subject content. The disadvantage of individually taught modules included missing knowledge, compared to a team approach. Advantages of team-taught modules included: greater insight into a topic delivered by multiple team members. Disadvantages included: content overlap, conflicting messages relating to assessment, team members not taking ownership of their roles and responsibilities and a belief that overall team failure is worse than individual failure to deliver a module well. The results revealed that individually taught modules were generally preferred to team-taught modules. A set of best practice recommendations are proposed to address the challenges when delivering team-taught teaching and become more student focused. 相似文献
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Aidan Chambers’ Breaktime (1978) is famous for its unique narrative style and sexual content. This focus has obscured another significant aspect of the novel: the role of social class in Breaktime and Chambers’ working-class background have rarely been explored. Chambers was an example of what Richard Hoggart calls “the scholarship boy,” a working-class boy educated in a grammar school in mid-twentieth-century Britain. In this article, Haru Takiuchi argues that Chambers’ scholarship-boy experiences are crucial for understanding Breaktime. For his analysis of the cultural and psychological aspects of class that concern representations of scholarship boys in British children’s literature of the 1960s and 1970s, he draws on Pierre Bourdieu’s theory of class habitus, more focused studies of class in Britain and research into the experiences of scholarship boys. Using material from the author’s archive supplemented with interviews, Haru Takiuchi highlights Chambers’ unique representation of the scholarship boy and social class in the book. 相似文献
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The expert blind spot (EBS) hypothesis implies that even some experts with a high content knowledge might have problems in science communication because they are using the structure of the content rather than their addressee’s prerequisites as an orientation. But is that also true for students? Explaining science to peers is a crucial part of cooperative learning methods such as the “jigsaw method”. Our study examined the relationship between science communication competence (SCC) and content knowledge (CK) of 10th-grade students (N = 213). Using latent class analysis, we identified two types of students with a different relationship between CK and SCC. Using path analysis, we found that the first type of 109 students primarily used their science CK as the “resource” for addressee-oriented science communication and both their SCC and their CK were correlated with each other. For the second type of 104 students (who used other resources), their CK even had a small negative effect on their SCC. Using t tests, we found that those students primarily using their CK as the resource for communication performed significantly worse in the communication test than did those students who used other resources. Using the EBS hypothesis, we suggest that students’ CK might have ambiguous effects in communication if the content structure—rather than their addressee’s prior knowledge—is used as the primary orientation for communication. We suggest that an effective use of cooperative learning techniques in classroom requires a special prior training for their science communication skills. 相似文献