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1.
Arthur Stinner 《Interchange》2006,37(1-2):19-30
This article traces the development of a contextual approach to the teaching of science (physics) subsequently called the Large Context Problem (LCP) approach. This approach is based on the general observation that learning could be well motivated by a context with one unifying central idea capable of capturing the imagination of the students. The design and the placing of the LCP is followed by a detailed discussion of the contexts of inquiry (as we find it in Newtonian physics) that attempts to give the contextual activities found in the LCP a sound theoretical backing. However, the contextual base must also be informed by the findings of constructivist learning theories as well as the history of science. Moreover, thought experiments (TEs) are considered an important aspect of science (physics) teaching and three kinds of TEs are discussed. All these ideas are summarized for a quick overview in a table called “Levels of investigation for scientific inquiry.”  相似文献   

2.
Background: Inquiry-based science education (IBSE) is suitable to teach scientific contents as well as to foster scientific skills. Similar conclusions are drawn by studies with respect to scientific literacy, motivational aspects, vocabulary knowledge, conceptual understandings, critical thinking, and attitudes toward science. Nevertheless, IBSE is rarely adopted in schools. Often barriers for teachers account for this lack, with the result that even good teachers struggle to teach science as inquiry. More importantly, studies indicate that several barriers and constraints could be ascribed to problems teacher students have at the university stage.

Purpose: The purpose of this explorative investigation is to examine the problems teacher students have when teaching science through inquiry. In order to draw a holistic picture of these problems, we identified problems from three different points of view leading to the research question: What problems regarding IBSE do teacher students have from an objective, a subjective, and a self-reflective perspective?

Design &; method: Using video analysis and observation tools as well as qualitative content analysis and open questionnaires we identified problems from each perspective.

Results: The objectively stated problems comprise the lack of essential features of IBSE especially concerning ‘Supporting pupils’ own investigations’ and ‘Guiding analysis and conclusions.’ The subjectively perceived problems comprise concerns about ‘Teachers’ abilities’ and ‘Pupils’ abilities,’ ‘Differentiated instruction’ and institutional frame ‘Conditions’ while the self-reflectively noticed problems mainly comprise concerns about ‘Allowing inquiry,’ ‘Instructional Aspects,’ and ‘Pupils’ behavior.’

Conclusions: Each of the three different perspectives provides plenty of problems, partially overlapping, partially complementing one another, and partially revealing completely new problems. Consequently, teacher educators have to consider these three perspectives.  相似文献   

3.
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4.
This article focuses on teacher professional development (TPD) in natural science through the 5E model as mediating artifact. The study was conducted in an upper secondary school, grounded in a school-based intervention research project. My contribution to the field of research on TPD is founded on the hypothesis that teachers would be best facilitated to make their practice more inquiry based if they are provided with a mediating artifact. In this study the artifact is a model 5E, which is a conceptual way of thinking, to help teachers reflect on their practice. The aim is to encourage teachers to make changes themselves, by applying extended use of inquiry into their practice. This mediated artifact could thus be used across different national contexts. The main research question is; how can the 5E model as a mediating artifact enhance TPD? The article addresses the processes of the use of the 5E model and its influence on teachers’ perception of the model. This is in order for teachers to conceptualize their goals related to inquiry and scientific thinking, and to solve the problems involved in achieving those goals in their own contexts.

The study concludes that, after the intervention, the teachers' approaches and strategies demonstrate greater emphasis on learning.  相似文献   

5.
Abstract

Despite its advanced age of about 375 years, the mind–body (psychophysical) problem is alive and well, in part because it is anchored so well institutionally in schools and in research (scientific vs. interpretive psychology). This continued presence is astonishing in the light of the fact that the seed for its solution, sown in Spinoza’s Ethics, is almost as old. The solution rests on the position that there is only one substance, which, invisible, manifests itself in two attributes, thought and extension (body). By thinking with Spinoza, especially by following the ways in which Vygotsky and Marx think with Spinoza, we arrive at an approach suitable for a social psychological theory of learning that does not separate knowing (intellect, thought) from doing and emoting (body). A classroom fragment from a 10th-grade physics curriculum is used as the starting point for overcoming the body–mind problem by thinking with Spinoza.  相似文献   

6.

I provide a theoretical framework to show that courses in informal logic can be taught developmentally to focus on a critical thinking practical component. However, efforts must be made to state clear outcomes, such that the content and processes of the course are tailored to achieve the outcomes, and clear criteria are provided for students' learning and assessment of their performance. This framework is an attempt to respond indirectly to the distinction between informal logic and critical thinking, and the concern that informal logic courses only teach abstract principles of reasoning and do not focus on requisite critical thinking abilities, which are contextualised to subject matter. I suggest a plausible connection between critical thinking and informal logic: that learning logical principles of reasoning is necessary, but not sufficient to think critically; there is an extra element which involves learning to apply the principles to various contexts.  相似文献   

7.

Authentic activities are important in promoting inquiry because they provide natural problem-solving contexts with high degrees of complexity. This study designed and studied effective inquiry tasks through transforming content, scientific thinking, and resources featured in scientists' authentic practices. This study investigated how 59 inner-city 6th grade students performed in real-time forecasting situations involving fronts and pressure systems. Forecasts were evaluated in terms of prediction agreement, meteorological entity consideration, explanation type, and scientific knowledge use because these four categories reflected inquiry features emphasized in the forecasting task. Results show that real-world situations that mapped closely onto students' content understandings, rather than those with naturally occurring complex patterns, helped students perform inquiry. Key ideas discussed in this paper include the importance of using authentic situations to develop rich understandings about scientific knowledge and the design of tasks that prepare students to participate in social practices valued by the science community.  相似文献   

8.
This study describes the possible variations of thought experiments in terms of their nature, purpose, and reasoning resources adopted during the solution of conceptual physics problems. A phenomenographic research approach was adopted for this study. Three groups of participants with varying levels of physics knowledge—low, medium, and high level—were selected in order to capture potential variations. Five participants were selected within each level group and the study was conducted with fifteen participants in total. Think aloud and retrospective questioning strategies were used throughout the individually conducted problem solving sessions to capture variations in the participants’ thinking processes. The analysis of the data showed that thought experiments were actively used cognitive tools by participants from all there levels while working on the problems. Four different thought experiment structures were observed and categorized as limiting case, extreme case, simple case, and familiar case. It was also observed that participants conducted thought experiments for different purposes such as prediction, proof, and explanation. The reasoning resources behind the thought experiment processes were classified in terms of observed facts, intuitive principles, and scientific concepts. The results of the analysis suggested that thought experiments used as a creative reasoning tool for scientists can also be a productive tool for students. It was argued that instructional practices enriched with thought experiments and related practices not only reveal hidden elements of students’ reasoning but also provide students opportunities to advance their inquiry skills through thought experimentation processes.  相似文献   

9.
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10.
ABSTRACT

Sociology of education, particularly in Britain and to a limited extent the USA, is examined in its relations to law and socio‐legal discourse. It is argued that in order to develop our understanding of educational accountability a fuller exploration of the institutional interface between law and education will be required. Several lines of scholarship and empirical inquiry are suggested, particularly with respect to the functions of law professionals and legal institutions in the contexts of ’public choice’, ‘juridification’ and the institutionalisation of irresponsibility in education.  相似文献   

11.
Indigenist scholars have been attending to the research process in ways that highlight the move toward inquiry, the beginnings of the research journey. The energies that animate imagination and inquiry need to be respected and accounted for. If we recognize that place and the consciousness of landscape contain the primordial elements for the Indigenous mind, then it follows that respectful Indigenous research methods should engage with the landscape as the beginning point for inquiry. Centering place and place-ness as containing the ontological meaning of Indigenous methodology is also a way to excavate the specific effects of colonization on Indigenous landscapes and communities. Much Indigenous thought radiates from an invocation of a sentient topography, a land that is aware of human presence. This writing considers what a methodology of place, specifically in the Coast Salish territory, might consist of.  相似文献   

12.
问题情境及创设问题情境在探究教学中具有重要意义,物理课堂中创设问题情境的基本策略即:创设的问题情境要新颖、生动;创设的问题情境要能激发学生思维,使学生产生学习动机;创设的问题情境要考虑学生解决的可能性。  相似文献   

13.
ABSTRACT

Many science curricula and standards emphasise that students should learn both scientific knowledge and the skills associated with the construction of this knowledge. One way to achieve this goal is to use inquiry-learning activities that embed the use of science process skills. We investigated the influence of scientific reasoning skills (i.e. conceptual and procedural knowledge of the control-of-variables strategy) on students’ conceptual learning gains in physics during an inquiry-learning activity. Eighth graders (n?=?189) answered research questions about variables that influence the force of electromagnets and the brightness of light bulbs by designing, running, and interpreting experiments. We measured knowledge of electricity and electromagnets, scientific reasoning skills, and cognitive skills (analogical reasoning and reading ability). Using structural equation modelling we found no direct effects of cognitive skills on students’ content knowledge learning gains; however, there were direct effects of scientific reasoning skills on content knowledge learning gains. Our results show that cognitive skills are not sufficient; students require specific scientific reasoning skills to learn science content from inquiry activities. Furthermore, our findings illustrate that what students learn during guided inquiry activities becomes visible when we examine both the skills used during inquiry learning and the process of knowledge construction. The implications of these findings for science teaching and research are discussed.  相似文献   

14.
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15.
Abstract

Against the backdrop of the push from the European Commission and the Organisation for Economic Cooperation and Development for competence-based curricula, this article problematises the complexity of developing twenty-first century skills, such as critical thinking, by addressing the role transnational and national policy contexts play in realising critical thinking in the national contexts of Sweden and Kosovo. The article distinguishes between policy-critical thinking and civic-critical thinking. Relying on analyses of curriculum and policy documents, it is concluded that while in the Swedish context critical thinking competence (or ability) seems to be much more implicit than explicit, in Kosovo, the national curriculum makes explicit references to thinking competences as a form of policy-critical thinking and civic competencies as a form of civic-critical thinking. Thus, students in both contexts have opportunities to develop critical thinking skills. Furthermore, Sweden emerges as a divergent case and Kosovo as a convergent case with regard to transnational policy flow research paradigms.  相似文献   

16.
The recent report on the Scientific Foundations for Future Physicians (SFFP) and the revised Medical College Admissions Test (MCAT) reframe the preparation for medical school (and other health professional schools) in terms of competencies: what students should know and be able to do with that knowledge, with a strong emphasis on scientific inquiry and research skills. In this article, we will describe the thinking that went into the SFFP report and what it says about scientific and quantitative reasoning, focusing on biology and physics and the overlap between those fields. We then discuss how the SFFP report set the stage for the discussion of the recommendations for the revised MCAT, which will be implemented in 2015, again focusing the discussion on biology and physics. Based on that framework, we discuss the implications for undergraduate biology and physics education if students are to be prepared to demonstrate these competencies.  相似文献   

17.
高中物理核心素养由物理观念、科学思维、科学探究、科学态度与责任四个维度组成。高中物理课堂中如何渗透物理学科的育人功能,教学中如何对学生进行物理学科核心素养的培养,值得每个教师思考。笔者以“光的偏振”为例,简要分析了本节课所承载的学科教育功能,并浅谈了对核心素养下的高中物理课堂教学的一些思考。  相似文献   

18.
Abstract

How can school education best bring about moral improvement? Socrates believed that the unexamined life was not worth living and that the philosophical examination of life required a collaborative inquiry. Today, our society relegates responsibility for values to the personal sphere rather than the social one. I will argue that, overall, we need to give more emphasis to collaboration and inquiry rather than pitting students against each other and focusing too much attention on ‘teaching that’ instead of ‘teaching how’. I will argue that we need to include philosophy in the curriculum throughout the school years, and teach it through a collaborative inquiry which enables children to participate in an open society subject to reason. Such collaborative inquiry integrates personal responsibility with social values more effectively than sectarian and didactic religious education.  相似文献   

19.
Design activities, when embedded in an inquiry cycle and appropriately scaffolded and supplemented with reflection, can promote the development of the habits of mind (scientific abilities) that are an important part of scientific practice. Through the Investigative Science Learning Environment (ISLE), students construct physics knowledge by engaging in inquiry cycles that replicate the approach used by physicists to construct knowledge. A significant portion of student learning occurs in ISLE instructional labs where students design their own experiments. The labs provide an environment for cognitive apprenticeship enhanced by formative assessment. As a result, students develop interpretive knowing that helps them approach new problems as scientists. This article describes a classroom study in which the students in the ISLE design lab performed equally well on traditional exams as ISLE students who did not engage in design activities. However, the design group significantly outperformed the non-design group while working on novel experimental tasks (in physics and biology), demonstrating the application of scientific abilities to an inquiry task in a novel content domain. This research shows that a learning environment that integrates cognitive apprenticeship and formative assessment in a series of conceptual design tasks provides a rich context for helping students build scientific habits of mind.  相似文献   

20.
ABSTRACT

Physical and virtual experimentation are thought to have different affordances for supporting students’ learning. Research investigating the use of physical and virtual experiments to support students’ learning has identified a variety of, sometimes conflicting, outcomes. Unanswered questions remain about how physical and virtual experiments may impact students’ learning and for which contexts and content areas they may be most effective. Using a quasi-experimental design, we examined eighth grade students’ (N?=?100) learning of physics concepts related to pulleys depending on the sequence of physical and virtual labs they engaged in. Five classes of students were assigned to either the: physical first condition (PF) (n?=?55), where students performed a physical pulley experiment and then performed the same experiment virtually, or virtual first condition (VF) (n?=?45), with the opposite sequence. Repeated measures ANOVA’s were conducted to examine how physical and virtual labs impacted students’ learning of specific physics concepts. While we did not find clear-cut support that one sequence was better, we did find evidence that participating in virtual experiments may be more beneficial for learning certain physics concepts, such as work and mechanical advantage. Our findings support the idea that if time or physical materials are limited, using virtual experiments may help students understand work and mechanical advantage.  相似文献   

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