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11.
Following educational reform in Israel, teacher-leaders create and lead professional development communities (PDCs), which are professional learning communities with a focus on in-service professional development and/or improving pedagogical effectiveness. Interviews with 30 teacher-leaders and all four district-level program coordinators revealed that, prior to assuming the role, teacher-leaders developed their professional and leadership skills largely in a self-directed manner. They described their PDCs as cohesive and dedicated, cooperative, involving peer-learning, and as creating a knowledge bank of teaching methods and tools. PDCs enable teachers to advance projects within the school and affect school culture. Principals’ involvement with PDCs varied, with their usually considerable involvement very favorably regarded. This article describes these findings and discusses their implications for the professional development of teachers in the international context. 相似文献
12.
An effective strategy for improving problem‐solving ability is fostering students' question‐posing capabilities through the use of real‐world problems. This article describes research on scientific question‐posing capabilities among 10th‐grade students who were studying air quality in a cooperative way, using the jigsaw method. Case studies and analyses of daily problems and dilemmas were integrated within the module the Quality of Air around Us, which was designed and developed specially for this research. The students were required to pose questions and cope with real‐life problems while practicing a variety of learning activities, such as reading press or scientific articles, analyzing tables and graphs, and creating posters and advertisements that related to the problem. The students' question‐posing skills were evaluated by using pre‐ and postcase study questionnaires. We found the number, orientation, and complexity of questions students posed to be three indices of question‐posing capability. Following study of the Quality of Air around Us module, a significant increase was observed in the factors of number and complexity of questions students posed. The difference between students at high and low academic levels in the extent of increase in both number and complexity of posed questions was significant. As for orientation, the percentage of solution‐ and opinion‐oriented questions increased in the posttest, and fewer questions dealt with the problem and related hazards. This indicates an increase in students' awareness of the need for and feasibility of seeking practical solutions to a given problem, as well as considerable improvement of their ability to analyze a related case study. On the basis of these findings, we recommend incorporating analysis of question‐posing capability as an alternative evaluation method. To this end, fostering of question posing into the case study–based teaching/learning approach is the preferred strategy, in particular when environmental aspects are involved. © 1999 John Wiley & Sons, Inc. J Res Sci Teach 36: 411–430, 1999 相似文献
13.
Throughout the last decade, the issue of sustainable development has become a major public debate topic. University science
graduates have the potential of playing an important mediatory role in this debate. This is because their scientific vocation
not only provides them with scientific knowledge about the core issues involved, but also puts them in the position of occupying
key managerial and leadership positions in the industrial community. This study examines whether environmental knowledge plays
a part in university science graduates’ thinking about industry on an intuitive level and also in their mode of responding
to concrete environmental problems. Our findings indicate that most of the graduates do not demonstrate an awareness of the
relevance of environmental knowledge to questions connected to industry; furthermore, they do not apply their scientific knowledge-base
in contexts related explicitly to environmental aspects of the industrial process. 相似文献
14.
System thinking skills at the elementary school level 总被引:1,自引:0,他引:1
This study deals with the development of system thinking skills at the elementary school level. It addresses the question of whether elementary school students can deal with complex systems. The sample included 40 4th grade students from one school in a small town in Israel. The students studied an inquiry‐based earth systems curriculum that focuses on the hydro‐cycle. The program involved lab simulations and experiments, direct interaction with components and processes of the water cycle in the outdoor learning environment and knowledge integration activities. Despite the students' minimal initial system thinking abilities, most of them made significant progress with their ability to analyze the hydrological earth system to its components and processes. As a result, they recognized interconnections between components of a system. Some of the students reached higher system thinking abilities, such as identifying interrelationships among several earth systems and identifying hidden parts of the hydrological system. The direct contact with real phenomena and processes in small scale scenarios enabled these students to create a concrete local water cycle, which could later be expanded into large scale abstract global cycles. The incorporation of outdoor inquiry‐based learning with lab inquiry‐based activities and knowledge integration assignments contributed to the 4th grade students' capacity to develop basic system thinking abilities at their young age. This suggests that although system thinking is regarded as a high order thinking skill, it can be developed to a certain extent in elementary school. With a proper long‐term curriculum, these abilities can serve as the basis for the development of higher stages of system thinking at the junior–high/middle school level. © 2009 Wiley Periodicals, Inc. J Res Sci Teach 47: 540–563, 2010 相似文献
15.
Mental constructions and constructions of web sites: learner and teacher points of view 总被引:1,自引:0,他引:1
Orit Hazzan 《British journal of educational technology : journal of the Council for Educational Technology》2004,35(3):323-344
This research focuses on knowledge and ways in which knowledge may be constructed in the learner's mind. Specifically, it addresses the Web as a cognitive supporter for learning, organising and constructing a new domain of knowledge. In particular, the research analyses student reflection on constructing web sites. The analysis is based on an ongoing reflection of 40 prospective and in‐service teachers who took a course on educational computational environments. The students were asked to choose a complex topic and to document the process of constructing a web site that would present their chosen topic. They were to reflect upon the process with regard to their decision making, difficulties encountered, ways of thinking, considerations and insights. Student reflection is analysed from two perspectives: the first perspective examines how the task of constructing a web site contributes to student learning of complex topics, the second perspective views the students as teachers who explore how constructing a web site contributes to their understanding of learning processes. 相似文献
16.
Daphne Goldman Orit Ben-Zvi Assaraf Julia Shemesh 《European Journal of Engineering Education》2014,39(3):325-347
While importance of environmental ethics, as a component of sustainable development, in preparing engineers is widely acknowledged, little research has addressed chemical engineers’ environmental concerns. This study aimed to address this void by exploring chemical engineering students’ values regarding human–nature relationships. The study was conducted with 247 3rd–4th year chemical engineering students in Israeli Universities. It employed the New Ecological Paradigm (NEP)-questionnaire to which students added written explanations. Quantitative analysis of NEP-scale results shows that the students demonstrated moderately ecocentric orientation. Explanations to the NEP-items reveal diverse, ambivalent ideas regarding the notions embodied in the NEP, strong scientific orientation and reliance on technology for addressing environmental challenges. Endorsing sustainability implies that today's engineers be equipped with an ecological perspective. The capacity of Higher Education to enable engineers to develop dispositions about human–nature interrelationships requires adaptation of curricula towards multidisciplinary, integrative learning addressing social–political–economic–ethical perspectives, and implementing critical-thinking within the socio-scientific issues pedagogical approach. 相似文献
17.
Uzi Levi Michal Einav Orit Ziv Ilana Raskind Malka Margalit 《European Journal of Psychology of Education - EJPE》2014,29(3):367-386
This study sought to extend the research on adolescents' hope, academic expectations, and average grades. The hope theory (Snyder, Psychological Inquiry 13(4):249–275, 2002), the salutogenic paradigm (with a focus on sense of coherence (SOC) (Antonovsky 1987)), and Bandura's (Journal of Management 38(1):9–44, 2012) social learning theory (with a focus on three self-efficacy (SE) constructs: academic SE, social SE, and emotional SE), were used as an integrated conceptual framework for predicting expected and actual academic performance. The sample consisted of 289 10th grade high school students (152 girls and 137 boys). The structural equation modeling (SEM) analysis provided support for the hypothesized modified model. The results demonstrated that hopeful thinking had a direct effect on grade expectations, which, in turn, predicted academic achievement. In addition, SOC, social SE, emotional SE, and academic SE were interrelated, but only emotional SE and SOC contributed directly to hope. Academic SE predicted effort, which also contributed to hope. Thus, the relations between students' investment of effort and actual grades were predicted indirectly through hopeful thinking and grade expectations. The implications for future research and the field of educational psychology of using hope, SOC, and SE as an integrated conceptual framework for predicting academic outcomes are discussed. 相似文献
18.
This study examines how teachers actually cope with behavioural problems of included students. In order to understand the impact of individual differences on teachers' coping strategies, the authors looked at the relationship between these strategies and teachers' democratic beliefs and self‐efficacy. Participants were 33 teachers in Israel, who teach inclusive classes (1st–3rd grade). Data were collected through classroom observations, teacher interviews and questionnaires. In the interviews, teachers reported that they preferred helpful strategies as a solution to behavioural problems; however, classroom observation revealed that teachers actually used more restrictive responses. These results indicated that there is a gap between teachers' hypothetical knowledge and their applications of this knowledge in authentic classroom situations. In addition, positive correlations were found between teachers' democratic beliefs, teacher efficacy and the use of helpful strategies in regard to different behavioural problems. Practical implications for teacher education are discussed. 相似文献
19.
Reductive thinking in computer science 总被引:1,自引:1,他引:0
This paper discusses the role of reduction in computer science and describes a study on undergraduate students' perception of the concept of reduction. Specifically, based on an analysis of students' answers to questions addressing different computer science topics, we present several findings regarding the ways in which undergraduate students conceive of and apply reduction. These findings can be interpreted within the framework of the tension that exists between the following two factors: The need to think in terms of high levels of abstraction, on one hand, and the fact that reduction introduces a new approach to be used in problem-solving situations, on the other. In addition the paper suggests several teaching applications. 相似文献
20.
In this study, 120 tenth-grade students from 8 schools were examined to determine the extent of their ability to perceive the human body as a system after completing the first stage in their biology curriculum - “The human body, emphasizing homeostasis”. The students’ systems thinking was analyzed according to the STH thinking model, which roughly divides it into three main levels that are arranged “pyramid” style, in an ascending order of difficulty: 1. Analysis of system components—the ability to identify the components and processes existing in the human body system; 2. Synthesis of system components—ability to identify dynamic relations within the system; 3. Implementation—ability to generalize and identify patterns in the system, and to identify its hidden dimensions. The students in this study proved largely incapable of achieving systems thinking beyond the primary STH level of identifying components. An overwhelming majority if their responses corresponded to this level of the STH model, further indicating a pronounced favoring of structure over process, and of larger, macro elements over microscopic ones. 相似文献