Predicting academic achievement by class‐level emotions and perceived homeroom teachers’ emotional support          下载免费PDF全文

Gabriela Kashy‐Rosenbaum  Oren Kaplan  Yael Israel‐Cohen 《Psychology in the schools》2018,55(7):770-782

Using a multilevel approach, this study examined the role of classroom emotional climate on students' academic achievement. Positive and negative emotions and homeroom teachers' support were used to assess the classroom emotional climate on the individual and class levels. To our knowledge, no study to date has investigated these specific aspects of the classroom emotional climate in relation to students' GPA. Data were collected from 73 classrooms in grades 7‐12 (N = 1,641, students; 53% female) across three schools in Israel. Findings revealed that aggregated levels of both positive affect and perceived homeroom teacher support were positively tied to GPA and that aggregated levels of negative affect were negatively tied to GPA. The final model included gender, teacher support, individual and class emotions and explained 14% of within‐class GPA. A central implication of this study is the relevance of having an emotionally supportive homeroom teacher for students' academic achievement.  相似文献   

High school students’ difficulties in understanding osmosis   总被引：1，自引：0，他引：1  

Yael Friedler  Ruth Amir  Pinchas Tamir 《International Journal of Science Education》2013,35(5):541-551

Preconceptions and misconceptions of 500 secondary students in years 9‐12 regarding osmosis were studied through the use of five different kinds of instruments: prior learning inventory, self‐report knowledge inventory, true/false test, definitions and clinical interviews. Some of the major findings were: (1) The most frequent explanation offered to osmosis is ‘a desire or drive towards equalizing concentrations’. (2) Hardly any student uses the concept ‘water concentration’. (3) Most students fail to realize that in dynamic equilibrium water molecules keep moving. (4) Students have special difficulty in understanding osmotic relations in plants. (5) Many students have difficulty in grasping solute‐solvent and concentration‐quantity relations. (6) Students often perform laboratory experiments without really understanding the underlying principles. Practical and theoretical implications are discussed.  相似文献   

Academic support model for post-secondary school students with learning disabilities: student and instructor perceptions     

Orly Lipka  Alona Forkosh Baruch  Yael Meer 《International Journal of Inclusive Education》2013,17(2):142-157

ABSTRACT

While post-secondary school students with learning difficulties confront many challenges, there is little research on methods of support. In the current study, the ‘adapted course’ model was qualitatively examined from the perspective of both students and instructors. The main goal was to explore how students and instructors perceived the instruction in adapted courses. Five pre-service students with learning disabilities (LD) and/or attention-deficit hyperactivity disorder and three instructors were interviewed. Responses were analysed using subjective analysis, with central content categories identified based on student and instructor statements. Six main themes emerged: (1) small class size; (2) emotional support; (3) adjusted teaching methods; (4) independent practice exercises; (5) instruction by modelling; and (6) instructor characteristics. The current study can inform pedagogical principles on which a support model for post-secondary students with LD can be based. It provides analyses of the effectiveness of one support model and presents the perceptions of both faculty and students. Moreover, the study provides an opportunity to learn about potential components of effective teaching-learning, not only in the specific context of adapted courses, but in any supportive learning situation (e.g. tutoring) or course.  相似文献   

Teaching Design in Middle-School: Instructors’ Concerns and Scaffolding Strategies     

Yael M. Bamberger  Clara S. Cahill 《Journal of Science Education and Technology》2013,22(2):171-185

This study deals with engineering education in the middle-school level. Its focus is instructors’ concerns in teaching design, as well as scaffolding strategies that can help teachers deal with these concerns. Through participatory action research, nine instructors engaged in a process of development and instruction of a curriculum about energy along with engineering design. A 50-h curriculum was piloted during a summer camp for 38 middle-school students. Data was collected through instructors’ materials: observation field notes, daily reflections and post-camp discussions. In addition, students’ artifacts and planning graphical models were collected in order to explore how instructors’ concerns were aligned with students’ learning. Findings indicate three main tensions that reflect instructors’ main concerns: how to provide sufficient scaffolding yet encourage creativity, how to scaffold hands-on experiences that promote mindful planning, and how to scaffold students’ modeling practices. Pedagogical strategies for teaching design that developed through this work are described, as well as the ways they address the National Research Council (A framework for K-12 science education: practices, crosscutting concepts, and core ideas. National Academies Press, Washington, DC, 2011) core ideas of engineering education and the International Technological Literacy standards (ITEA in Standards for technological literacy, 3rd edn. International Technology education Association, Reston, VA, 2007).  相似文献   

Enhancing children’s narratives in investigative interviews     

Yael Orbach  Michael E. Lamb   《Child abuse & neglect》2000,24(12)

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Teacher autonomy in times of standardised lesson plans: The case of a Primary School Language and Mathematics Intervention in South Africa     

Yael Shalem  Francine De Clercq  Carola Steinberg  Hannchen Koornhof 《Journal of Educational Change》2018,19(2):205-222

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Public Engagement with Science in Everyday Life: Perceptions of Wi-Fi Radiation Risks in Schools     

Dalyot  Keren  Sharon  Aviv J.  Orr  Daniela  Barel Ben-David  Yael  Baram-Tsabari  Ayelet 《Research in Science Education》2019,51(2):1035-1054

Wi-Fi radiation is a type of radio frequency electromagnetic radiation (RF-EMR) that refers to the transfer of energy by radio waves. Nowadays, exposure to RF radiation is widespread including wireless internet connection (Wi-Fi) routers and cell phones. The proliferation of devices emitting RF radiation has entailed some public and media-generated controversy, although scientific evidence has not pointed to the existence of risk. Using the theoretical perspectives of science literacy, public engagement with science, and science media literacy, this work examines public engagement with science-related media reports in a context involving risk. A qualitative design was followed to address multiple viewpoints including an analysis of an authentic primetime TV program concerning the risks of Wi-Fi, its messages, and frames, solicited a public response to the coverage via interviews and decision-making simulation (n = 20), and unsolicited public response based on social media discussions (n = 315 comments). Our findings suggest that a lack of relevant scientific knowledge does not seem to be related to participants’ general scientific literacy among people with higher education. Moreover, interviewees did not place much emphasis on having adequate knowledge in making their decision. These findings emphasize that we need to expand our understanding of the different ways that make scientific knowledge relevant when making decisions on scientific issues that relate directly to everyday life.

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Science teachers' pedagogical content knowledge development during enactment of socioscientific curriculum materials     

Durdane Bayram-Jacobs  Ineke Henze  Maria Evagorou  Yael Shwartz  Elin Leirvoll Aschim  Silvia Alcaraz-Dominguez  Mario Barajas  Etty Dagan 《科学教学研究杂志》2019,56(9):1207-1233

The purpose of this study is to provide insight into short-term professionalization of teachers regarding teaching socioscientific issues (SSI). The study aimed to capture the development of science teachers' pedagogical content knowledge (PCK) for SSI teaching by enacting specially designed SSI curriculum materials. The study also explores indicators of stronger and weaker development of PCK for SSI teaching. Thirty teachers from four countries (Cyprus, Israel, Norway, and Spain) used one module (30–60 min lesson) of SSI materials. The data were collected through: (a) lesson preparation form (PCK-before), (b) lesson reflection form (PCK-after), (c) lesson observation table (PCK-in-action). The data analysis was based on the PCK model of Magnusson, Krajcik, and Borko (1999). Strong development of PCK for SSI teaching includes “Strong interconnections between the PCK components,” “Understanding of students' difficulties in SSI learning,” “Suggesting appropriate instructional strategies,” and “Focusing equally on science content and SSI skills.” Our findings point to the importance of these aspects of PCK development for SSI teaching. We argue that when professional development programs and curriculum materials focus on developing these aspects, they will contribute to strong PCK development for SSI teaching. The findings regarding the development in the components of PCK for SSI provide compelling evidence that science teachers can develop aspects of their PCK for SSI with the use of a single module. Most of the teachers developed their knowledge about students' understanding of science and instructional strategies. The recognition of student difficulties made the teacher consider specific teaching strategies which are in line with the learning objectives. There is an evident link between the development of PCK in instructional strategies and students' understanding of science for SSI teaching.  相似文献   

Place-based learning: action learning in MA program for educational practitioners     

Amnon Glassner  Yael Eran-Zoran 《Action Learning: Research and Practice》2016,13(1):23-37

The study presents a new pedagogical idea and practice for educational practitioners. The practice was developed as a workshop of MA program in order to change and expand the meaning of education for the wellbeing of the community. The ‘place-based learning’ workshop combined action learning (AL) with project-based learning (PBL). The students’ assignment was to develop and operate a plan for the contribution of specific places (e.g. parks, public buildings, organizations and industries) to the community. The findings indicate conceptual and behavioral changes among the students concerning educational processes. At the end of the workshop, the students tended to be more tolerant of ambiguity, sustain judgment and collaborate with peers. The new practice emphasizes coping with fundamental emotional needs such as autonomy, self-efficacy, engagement and belonging. The synergy between AL and PBL was found to have great potential for meaningful learning and doing.  相似文献   

The performance of young deaf children in spatial and temporal number tasks   总被引：2，自引：0，他引：2  

Zarfaty Y  Nunes T  Bryant P 《Journal of deaf studies and deaf education》2004,9(3):315-326

Deaf children tend to fall behind in mathematics at school. This problem may be a direct result of particular experiences in the classroom; for example, deaf children may find it hard to follow teachers' presentations of basic, but nevertheless quite abstract, mathematical ideas. Another possibility is that the problem starts before school: They may either be worse than hearing children at early, nonlinguistic number representations, they may be behind in learning the culturally transmitted number string, or both. This may result in deaf children failing to develop informal problem-solving strategies, which prepare most children for the more formal learning of number and arithmetic that they will have to do at school. We compared 3- and 4-year-old deaf and hearing children's ability to remember and to reproduce the number of items in a set of objects. In one condition, we presented all the items together in a spatial array; in another, we presented them one at a time in a temporal sequence. Deaf children performed as well as the hearing children in the temporal tasks, but outperformed their hearing counterparts in the spatial task. These results suggest that preschool deaf children's number representation is at least as advanced as that of hearing children, and that they are actually better than hearing children at representing the number of objects in spatial arrays. We conclude that deaf children's difficulties with mathematical learning are not a consequence of a delay in number representation. We also conclude that deaf children should benefit from mathematical instruction that emphasizes spatial representation.  相似文献