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1.
Anton E. Lawson 《科学教学研究杂志》1985,22(7):569-617
A central purpose of education is to improve students' reasoning abilities. The present review examines research in developmental psychology and science education that has attempted to assess the validity of Piaget's theory of formal thought and its relation to educational practice. Should a central objective of schools be to help students become formal thinkers? To answer this question research has focused on the following subordinate questions: (1) What role does biological maturation play in the development of formal reasoning? (2) Are Piaget's formal tasks reliable and valid? (3) Does formal reasoning constitute a unified and general mode of intellectual functioning? (4) How does the presence or absence of formal reasoning affect school achievement? (5) Can formal reasoning be taught? (6) What is the structural or functional nature of advanced reasoning? The general conclusion drawn is that although Piaget's work and that which has sprung from it leaves a number of unresolved theoretical and methodological problems, it provides an important background from which to make substantial progress toward a most significant educational objective. All our dignity lies in thought. By thought we must elevate ourselves, not by space and time which we can not fill. Let us endeavor then to think well; therein lies the principle of morality. Blaise Pascal 1623-1662. 相似文献
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Marcia C. Linn 《International Journal of Science Education》2013,35(4):429-440
Summaries English Educators need to know when an adolescent will use a particular available problem‐solving mechanism or strategy. If a student can solve proportional reasoning problems in mathematics and physics classes but fails to comprehend the ‘odds’ in a local lottery, the teacher would like to know why. Three task context factors that form obstacles to generalizing logical reasoning strategies are illustrated by research studies. The obstacles are perceived relevance of the variables, perceived goal of the experiment and variable salience. The relationship between these factors and Piagetian theory is explored. Piaget's view that generalization is difficult to predict is a pessimistic one for educators. In contrast to this view, our findings suggest that it is possible to make some predictions abouthow and when logical mechanisms will be generalized to new situations. Implications for designing educational programmes which enhance generalizability of instruction in logical reasoning are described. 相似文献
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Anton E. Lawson 《科学教学研究杂志》1991,28(7):581-591
Niaz (1990) presents arguments in favor of the retention of Piaget's epistemic subject as a theoretical construct to guide research and practice in science education and psychology. The intent of this article is to point out the weaknesses of those arguments and to suggest that the weight of evidence argues against the existence of the logical thinker postulated by Piaget. Therefore, contrary to Niaz's conclusion that the acceptance of Piaget's epistemic subject will facilitate the development of cognitive theories with greater explanatory power, the conclusion is reached that Piaget's epistemic subject is dead and that continued acceptance of this aspect of Piagetian theory would be counterproductive. 相似文献
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J. A. Rowell 《Science & Education》1993,2(2):111-136
From where should science teaching derive its inspiration? It is suggested here that if we are to have sustainable, rational progress in science teaching then practice must be theoretically based. Working from this position, Piaget's theory is examined for its teaching implications. Ten implications are derived and, in a second section of the paper, are used to generate a coherent program of classroom practice and research. 相似文献
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Piaget's structural theory of formal thought suggests that a general construct of formal reasoning exists. The content of the task and type of problem employed are often ignored in Piagetian based studies but are important for generalizing findings to other studies and to educational problems. The study reported here examines content and problem effects of formal thought in 13-year-old adolescents. Specifically, three controlling variables tasks with different content and two question type tests (analysis and controlling questions) were administered to 120 seventh graders. Ability measures and personality dimensions associated with formal reasoning in the literature are used to clarify what formal reasoning is and how content and problem type are involved in formal reasoning. Significant main effects were found for problem and content effects (p = 0.001), and a significant interaction was found between the two (p = 0.001). Across the three tasks general ability, field dependency, and locus of control were consistently and significantly related to the controlling questions. However, only measures of field dependency were related to the analysis questions. Combinations of ability and personality factors were found to be uniquely related to each task, within each question type. Results have implications for a theory of formal thought and the teaching of the controlling variables strategy. 相似文献
7.
Niklas Pramling Ingrid Pramling Samuelsson 《Early Years: An International Journal of Research and Development》2001,21(2):139-149
In this article, a video-recording of a young child's (3.3 years) dialogue with his teacher about experiments with elementary physics concepts forms a base for a discussion of early science education in preschool. Although, according to Piaget's theory, the child appears to be at the pre-operational stage, we argue for a pedagogical approach which focuses his awareness on the most basic aspect of science, i.e. that phenomena can be explained (this foundational principle must be understood before specific scientific explanations can be understood). The focus for the analysis is on the verbal interaction between the child and the teacher within the social practice of the preschool and on how this interaction enables the child to test and prove a hypothesis formulated by himself. The interaction in the case study will be used here as an illustration and a discussion of an approach to education in preschool. 相似文献
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Mansoor Niaz 《科学教学研究杂志》1991,28(7):569-580
According to Piaget, a fundamental epistemological distinction must be made between the psychological and the epistemic subject. The epistemic subject is studied by the genetic epistemologist who charts development through a “common universal rationality, which develops,” whereas the psychological subject is studied by the developmental/cognitive psychologist by focusing on accidental contingencies surrounding particular people and their individual differences. The epistemic subject as compared to the psychological subject is an idealized abstraction, viz., that set of underlying epistemic structures common to everyone at the same level of development. The objective of this study is to investigate the degree to which investigators in science education conceptualize the difference between the epistemic and the psychological subjects. It is argued that just as the ideal gas law (based on the theoretical formulation of Maxwell and Boltzmann) provides a “general model” to which the real gases approximate under different experimental conditions, so we can consider (by abduction) the epistemic subject to be an “ideal knower” to which the real (psychological) subjects approximate to varying degrees. The difference between the epistemic and the psychological subjects, however, cannot be used as an “epistemological shield” in defense of Piagetian theory. Any test of the Piagetian theory must involve psychological or real subjects. Empirical testability, however, need not be equated to being scientific. An analogy is drawn between Galileo's idealization, which led to the discovery of the law of free-fall, and Piaget's epistemic subject. Research conducted in science education shows that at least for some critics the wide variations in the age at which individuals acquire the different Piagetian stages is crucial for rejecting the theory. It is argued that the real issue is not the “proportion of heterogeneity” but the understanding that Piaget, by neglecting individual differences, attempts to build a general model applicable across types of situations/subjects. The distinction between the epistemic and the psychological subjects is important not for defending Piaget's theory (which has serious theoretical flaws) but to understand epistemic transitions, for example, the one between Piaget's epistemic subject and Pascual-Leone's metasubject. It is concluded that failure to understand the distinction between the epistemic and the psychological subjects would lead to misconstruing the significance of our research findings and, what is more serious, to a lack of a historical perspective. 相似文献
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《Journal of moral education》2012,41(3):201-213
Abstract: Kohlberg's system of moral judgment development has some important links with Piaget's work on moral judgment, though Piaget's work is not the only influence on Kohlberg's ideas. Piaget's system of moral growth is briefly examined, and the extent to which subsequent research has validated it, is noted, thus placing Kohlberg in a historical context. The ways in which Kohlberg extends or departs from Piaget's system of moral growth are examined. The concept of stages and the nature and processes of stage development are discussed, and in this context the relationship between Kohlberg's moral development and Piaget's cognitive development is examined. It is concluded on the basis both of logic and evidence that the relationship, although complex rather than isomorphic, is likely to hold considerable potential for future research. 相似文献
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John White 《牛津教育评论》2013,39(2):181-184
Two main reasons are given for the continuing educational deployment of Piaget's psychological theory. The first reason is that his theory survives psychological scrutiny. In support, it is argued that none of five criticisms directed by Peter Bryant (Oxford Review of Education, 10/3 1984) requires the rejection of Piaget's theory. It is, in particular, contended that the development of cognitive ability is accorded a relative, rather than absolute, construal; that both principles of matching and of mismatching are compatible with Piaget's theory; and that decisions about the validity of Piaget's recent equilibratory model should not be taken prematurely. The second reason is that Piaget's constructivist theory has undergone recent revision and so is of interest to those with psychological or educational commitments to constructivism. 相似文献
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《Early education and development》2013,24(1):9-35
In this article, we examine the role constructivist teachers play in fostering moral development in young children. Drawing on Piaget's theory and related empirical research, we trace the development of perspective-taking, autonomy, and self-regulation, and examine the effects of different teaching and parenting practices on children's moral development. We then provide examples of autonomous moral reasoning and behavior in preschool and early primary grade children, and describe how teachers can promote optimal moral development through establishing a sociomoral atmosphere in which mutual respect is continually practiced. 相似文献
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《教育心理学家》2013,48(3):219-221
Classical Piagetian theory had much to offer education, which could not be derived from the learning theory of its day. Since the cognitive revolution, learning theory has accepted most of Piaget's basic constructivist premises and outstripped his theory in its ability to model the details of children's cognitive structures. Thus, an important question is whether Piagetian theory still has anything distinctive to offer. To support the claim that it does, the notion of a central conceptual structure is introduced. These structures have several features that make their discovery in the context of learning theory unlikely, most notably their generality, the wide range of content domains that they span and their susceptibility to general developmental as well as specific experiential influence. Educational areas in which analysis of central conceptual structures has proven useful include (a) assessment, (b) early childhood education, (c) curriculum design, and (d) remedial instruction. 相似文献
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Piaget's learning theory on cognitive development has had considerable impact on science education (Piaget, 1964; Inhelder and Piaget, 1958; Craig, 1972). The theory classifies cognitive learning into four successive stages: (a) sensory-motor, (b) pre-operational, (c) operational, and (d) formal. Various programmes and instructional strategies have been developed based on the theory (Batt, 1980; Karplus, 1977; Renner and Stafford, 1979; Ryan, et al., 1980; Herron, 1978; Good et al; 1978). An application of this theory for teaching and learning scientific concepts is the Piagetian learning cycle (Karplus, 1977) which is of growing interest among science educators. This article intends to introduce briefly the learning cycle in general and suggest a learning cycle for teaching a topic in chemistry: “Elements and Symbols”. 相似文献
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Fritz Kubli 《International Journal of Science Education》2013,35(1):5-20
Summaries English Dr Kubli investigates several central statements from Piaget's cognitive psychology and their meaning for science eduction in that he attempts to clarify them. Among these statements are theses such as: ‘The basis of thought is action’ and ‘The development of thought is characterized by an ever more flexible equilibrium of the structure of the operative entirety’. These statements are supported by Piaget's experiments. In this article, interpretations which appear most suitable for use in deriving consequences for science education are presented. Some characteristic levels of thinking in children are explained in terms of the child's difficulty to switch from a subjective egocentric assimilation of the material world to an objectively verifiable one. The conclusion derived from this is a general one: the communication of the teacher must be conducted as reversibly as possible by presenting in his teaching those of his own assimilation schemata which can be equilibrated by the pupils with the schemata already available to them. 相似文献
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Practical reasoning is a fundamental competence required for everyday decision-making as well as for the production of scientific knowledge. However, very little attention is given to developing this competence in school science classrooms or in educational research programs. In this paper we explain the tradition of practical reasoning and its relevance to science and science education. We then suggest ways in which practical reasoning may be developed in students such that they are enabled to better understand how scientific knowledge is produced and how they may be better able to contribute to improving scientific practices. 相似文献
18.
《Educational Philosophy and Theory》2013,45(8):878-891
Constructivism is at the heart of a pedagogical philosophy going back to Vico, whose view of the interrelationship of the arts and sciences sought to reconstitute the classical paideia. The Vichian idea that human beings can only know the truth of what they themselves have made has theoretical and practical consequences for Vico's pedagogy and view of the university. Vico's ideas on education are extended in the modern period by such thinkers as Cassirer, Piaget and Bateson. At the basis of Cassirer's pedagogical philosophy is his theory of the symbol, the symbol being a universal and transcendent modality in culture. The result of this unifying theory is that symbolism, which is pervasive across the disciplines, provides a moral and ethical means for integrating communication about teaching. Cassirer's thought is compatible with Piaget's, which emphasizes the pluralism of experience and the role of dynamic learning in the construction of meaningful order. Piaget's constructivism assumes that an operational bridge exists to link together the hard sciences, the human sciences, and the historical disciplines. This systems view of epistemological matters is similar in many respects to the one advanced by Gregory Bateson, which is explored in the paper's final section. 相似文献
19.
Constance Kamii 《Interchange》1970,1(1):33-39
The present paper draws pedagogical implications from Piaget's theory in the light of Bereiter's critical response to Kohlberg's view against specific instruction. It argues that instruction can be more specific in some ways than Kohlberg suggested, e.g., in the teaching of social knowledge and in the structuring of cognitive processes that will eventually result in logical thinking. It shows the relevance of Piaget's theory to early childhood education and argues that specific instruction should take place within a developmental context and within the framework of a broad theory of knowledge. 相似文献
20.
Research was done to probe and extend Piaget's theory of the conception of speed. Specifically tested was the hypothesis that there is no hierarchical relationship in performance on the following Piaget-type tasks: conservation of distance, asymmetric series of speeds, one-to-many (circular) speeds, symmetric speeds, time, and proportional reasoning. The research also tested the gender-related performance on these six tasks. One hundred freshman and sophomore college students were shown demonstrations of equipment individually for each of the six tasks. A set of open-ended questions based on the demonstrations was administered to each subject in a 45-minute interview. Subjects were scored as “pass” on a given task if they manipulated objects in certain ways and gave specific types of explanations. A scalogram analysis of the data yielded a z-score of — 3.7 which indicated that subjects passed the task in a certain sequence. The tasks were found to form a unidimensional scale and to be increasingly difficult in the order listed above. A chi-square test for two independent samples showed a significant difference (alpha = 0.05) in performance between males and females on all speed tasks. No significant differences in performance between males and females were found for the distance and time tasks. 相似文献