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1.
Manita van der Stel Marcel V. J. Veenman 《European Journal of Psychology of Education - EJPE》2014,29(1):117-137
In the last decades, students increasingly have been placed in the role of active learners with responsibilities for their own learning. Students have to be able to plan their learning activities and execute them in a systematic and orderly way and to monitor and to evaluate their learning and to reflect on it. All aforementioned skills are components of metacognitive skillfulness. The first objective was to gain insight in the development of both quantity and quality of metacognitive skills in young adolescents (aged 12–15 years). The second objective was to establish whether development of metacognitive skills is intelligence related or relatively intelligence independent. Finally, the generality vs. domain specificity of developing metacognitive skills was investigated. In a 3-year longitudinal study, participants performed two different tasks (text studying and problem solving) in two different domains (history and math), while thinking aloud. Results show that between the age of 12 and 15 years, metacognitive skills do not develop linearly or at the same pace. Furthermore, metacognitive skills contribute to learning performance, partly independent of intellectual ability. Finally, the results show that metacognitive skills appear to be predominantly general by nature over the years. Although a smaller domain-specific component was found as well in the first 2 years, this component disintegrated in the third year. The age around 15 years appears to be a relevant point in time during the developmental trajectory of metacognitive skills: Growth is (temporarily) put on hold, while the nature of these skills becomes fully general. 相似文献
2.
Changes in the relation between cognitive and metacognitive skills during the acquisition of expertise 总被引:2,自引:0,他引:2
Marcel Veenman Jan J. Elshout 《European Journal of Psychology of Education - EJPE》1999,14(4):509-523
This paper focuses on the transformation of general metacognitive skills of novices into domain-specific regulatory procedures of experts, and the relation of those skills to intelligence. Research has shown that the general metacognitive skills of novices, although partly correlated to intelligence, additionally contribute to learning outcome on top of intelligence. The metacognitive skills of experts appear to be domainspecific and unrelated to intelligence. Two experiments were conducted. The objective of the first experiment was to confirm and generalize these earlier results concerning the relation of intellectual ability, metacognitive skillfulness and learning of novices vs. advanced subjects. The objective of the second experiment was to investigate this relation under different conditions of task complexity. It was hypothesized that advanced subjects would regress to more novice-like behavior under very complex learning conditions (i.e., general metacognitive skills and intelligence would re-appear as combined predictors of learning outcome). On the other hand, low intelligent novices, irrespective of their metacognitive skillfulnes, were expected to fail on very complex problems. Results partly confirmed these hypotheses. Implications for the conditions under which metacognitive experiences should be implemented, are being discussed. 相似文献
3.
The first objective of this study was establishing to what extent metacognitive skill is associated with intelligence. As a second objective, the impact of hints on the execution of metacognitive skills was investigated. Both issues have major implications for the training and transferability of metacognitive skills during performance on a representative school task. First, a standardized intelligence-test was administered to a group of first-year secondary-school students. Next, these students solved six math word problems, three without metacognitive hints and three including these hints. Metacognitive skilfullness was assessed through systematical observation, while learning performance consisted of performance on a math task and grade point average (GPA). Results show that without hints metacognitive skilfulness is the main predictor of initial learning, while intelligence additionally enters the regression equation after the presentation of metacognitive hints. GPA also appears to be predicted by a combination of intellectual and metacognitive skills. Consequences for the early acquisition of metacognitive skills are discussed. 相似文献
4.
A central issue in the design of curricula for all school levels is the development of the learners’ high-order thinking skills and metacognitive skills. Among such required skills is the ability to solve problems. The literature dealing with the development of problem-solving skills is vast and primarily addresses the scientific disciplines, even though the importance of integrating such skills into all disciplines is widely mentioned. The current study aims to compare problem-solving questions used in two seemingly different disciplines: linguistics and computer science. Our premise was that the basis for imparting problem-solving skills is asking problem-solving questions. We analysed problem-solving questions posed in various teaching and learning school scenarios for keywords, and identified nine categories of problem-solving question keywords common to both disciplines. We present those categories and extend our study of two categories to demonstrating the ability to follow the problem-solving process in linguistics is similar to the exact sciences. 相似文献
5.
This study aimed to better understand how metacognitive skills develop in young children aged 5 to 7?years. In particular, we addressed whether developmental changes reflect quantitative or qualitative improvements, and how metacognitive skills change with age and task-specific ability. Previous research into the development of metacognitive skills has been somewhat limited by methodology??often there is an over-reliance on language skills and it is assumed that children are fully conscious of the skills they use. In this study, a new observational method was developed which aimed to better represent young children??s (n?=?66) metacognitive skills by coding their verbalizations and non-verbal behavior during a problem-solving task. This method proved to be developmentally sensitive and illustrated both a quantitative increase in metacognitive skills, and qualitative changes in the types of monitoring and planning used throughout early development. Further, the results indicated that monitoring processes improve with age, control processes improve with both age and task-specific ability, and ??failures of metacognitive skills?? are primarily affected by task-specific ability rather than age. 相似文献
6.
This article investigates a complex Aptitude Treatment Interaction (ATI), of intelligence and metacognitive skill as aptitudes with structuredness of learning environment as treatment. A more structured learning environment is usually regarded as beneficial to learning in low intelligence students, whereas it may not affect or may even interfere with learning in high intelligence students. The overall analyses of four studies are presented, including a total of 99 subjects. High and low intelligence novices passed through either structured or unstructured simulation environments in the domains of heat theory, electricity, or statistics. Thinking-aloud protocols were analyzed in order to assess the metacognitive skillfulness of subjects. Several learning tests were administered, assessing both declarative and procedural domain knowledge. The results show that structuredness of learning environment did not affect learning in high intelligence subjects, irrespective of their level of metacognitive skillfulness. However, the structured learning environment yielded enhanced learning performances in low intelligence subjects with a low level of metacognitive skillfulness, while it interfered with learning in low intelligence subjects with a relatively high level of metacognitive skillfulness. 相似文献
7.
David Whitebread 《European Journal of Psychology of Education - EJPE》1999,14(4):489-507
This paper reports two related studies intended to explore the interactions between children’s metacognitive abilities, their working memory capacity, the development and selection of strategies and their performance on problem-solving tasks. In the first study, a sample of 20 children aged 5 and 6 were presented with a reclassification task. In the second study, a sample of 72 children aged 6, 8 and 10 were presented with a multidimensional discrimination learning (MDL) task. Data was collected related to the children’s metacognitive abilities, working memory capacity, response strategies and task performance. The results indicated that performance on both tasks was dependent upon developmentally changing interactions between these various aspects of cognitive functioning. In particular, the relationship of working memory capacity to performance was dependent upon metacognitive abilities. The results also suggested that metacognitive awareness did not directly affect performance, but that such a relationship was dependent upon the development of strategic control. The implications of these results for understanding U-shaped behavioural growth and other common developmental patterns are discussed. Within the educational sphere, the study emphasises the significance and possibility for children as learners of fostering certain kinds of metacognitive ability. 相似文献
8.
Annemie Desoete 《Metacognition and Learning》2008,3(3):189-206
Third grade elementary school children solved tests on mathematical reasoning and numerical facility. Metacognitive skillfulness
was assessed through think aloud protocols, prospective and retrospective child ratings, teacher questionnaires, calibration
measures and EPA2000. In our dataset metacognition has a lot in common with intelligence, but planning measured with teacher
ratings plays a role above and beyond IQ. Moreover, we found that skills are generally related, but that it is more appropriate
to assess them separately. In addition, results show the value of an experienced teacher as actual measure of metacognitive
planning skills. Our dataset suggests convergent validity for prospective and retrospective child ratings, but no significant
relationship with the other metacognitive measures. Metacognitive skillfulness combined with intelligence accounts for between
52.9% and 76.5% of the mathematics performances. The choice of diagnostic instruments highly determines the predicted percentage.
Consequences for the assessment of metacognitive skills are discussed. 相似文献
9.
Ruth Colvin Clark 《Performance Improvement Quarterly》1988,1(1):33-45
An understanding of the uses of meta-cognition provides a powerful tool toward developing quality and efficiency in task learning and performance. Metacognition is the executive controller of cognitive processes responsible both for self regulated learning and work performance outcomes. Comprehension monitoring and motivation are two prime components of metacognition which are responsible for commitment to, and definition of, goals, monitoring progress toward goals, and activating the appropriate thinking skills to achieve goals. Specific thinking skill categories of attention, organization, and elaboration are described with examples of how specific techniques in each category can optimize learning and job performance. Research on training of metacognitive skills through both detached and embedded skill-development programs is reviewed. In addition, ways to compensate for metacognitive skills when training is not cost-effective are described. The relationship between metacognitive skills and effective management of work performance is stressed. 相似文献
10.
Ruth Colvin Clark 《Performance Improvement Quarterly》1997,10(1):20-33
An understanding of the uses of metacognition provides a powerful tool toward developing quality and efficiency in task learning and performance. Metacognition is the executive controller of cognitive processes responsible both for self regulated learning and work performance outcomes. Comprehension monitoring and motivation are two prime components of metacognition which are responsible for commitment to, and definition of, goals, monitoring progress toward goals, and activating the appropriate thinking skills to achieve goals. Specific thinking skill categories of attention, organization, and elaboration are described with examples of how specific techniques in each category can optimize learning and job performance. Research on training of metacognitive skills through both detached and embedded skill-development programs is reviewed. In addition, ways to compensate for metacognitive skills when training is not cost-effective are described. The relationship between metacognitive skills and effective management of work performance is stressed. 相似文献
11.
Teaching domain-specific skills before peer assessment skills is superior to teaching them simultaneously 总被引:1,自引:0,他引:1
Instruction in peer assessment of complex task performance may cause high cognitive load, impairing learning. A stepwise instructional strategy aimed at reducing cognitive load was investigated by comparing it with a combined instructional strategy in an experiment with 128 secondary school students (mean age 14.0?years; 45.2% male) with the between-subjects factor instruction (stepwise, combined). In the stepwise condition, study tasks in Phase 1 were domain-specific and study tasks in Phase 2 had both domain-specific and peer assessment components. In the combined condition, these two components were present in all tasks in both phases. Final performance (i.e. speed and accuracy in domain-specific skills and peer assessment skills) showed no significant differences, but performance improved more from Phase 1 to Phase 2 in the stepwise condition than in the combined condition. The results suggest that, with complex study tasks, it might be beneficial to teach domain-specific skills before peer assessment skills. 相似文献
12.
Paulette Rozencwajg 《European Journal of Psychology of Education - EJPE》2003,18(3):281-294
The aim of this study on 42 seventh graders (ages 12–13) was to determine whether and to what extent students’ metacognitive
level is linked to their conceptualization and performance in problem solving at school, especially science problems. This
hypothesis is supported by a number of studies showing that metacognition is a factor in learning. Two indexes were devised
for the study: an index of metaknowledge about classroom learning, and an index of metacognitive monitoring in relation to
task difficulty on a non-academic problem. These two indexes were related to the students’ intelligence test scores and solving
strategies on electricity problems. The results showed that (1) the metaknowledge level was more closely tied to crystallized
intelligence (Gc), and (2) metacognitive monitoring was more closely associated with fluid intelligence (Gf). Moreover, both
metacognitive indexes were strongly linked to scientific problem-solving strategies (correlations around .50). 相似文献
13.
甄燕 《和田师范专科学校学报》2010,29(4):192-193
本文首先对元认知及元认知在体育领域的发展现状进行了阐述,并采用调查法对长春市初中生使用元认知的情况及制定实验方案对体育课上学生运用元认知学习运动技能的成绩情况进行分析,从而得出它对体育运动技能学习的重要性。 相似文献
14.
Two experiments were conducted with senior high school pupils in the North‐West Province of South Africa to examine relationships of metacognitive strategies and nonverbal reasoning ability to their performance in tests of mathematics and English comprehension. The analyses of data revealed that both metacognitive ability and nonverbal reasoning ability have significant positive association with mathematics and English achievement scores. Significant sex differences in mathematics performance were also found. The findings of the two experiments suggested that some intervention programmes to teach metacognitive strategies to students, who lack such skills, may improve their academic attainment 相似文献
15.
Yehudit Judy Dori Shirly Avargil Zehavit Kohen Liora Saar 《International Journal of Science Education》2018,40(10):1198-1220
ABSTRACTContext-based learning (CBL), promoting students' scientific text comprehension, and fostering metacognitive skills, plays an important role in science education. Our study involves CBL through comprehension and analysis of adapted scientific articles. We developed a module which integrates metacognitive prompts for guiding students to monitor their understanding and improve their scientific text comprehension. We investigated the effect of these metacognitive prompts on scientific text comprehension as part of CBL in chemistry. About 670 high school chemistry students were randomly divided into three groups exposed to high- and low-intensity CBL. One of the high-intensity groups was also exposed to metacognitive prompts. Research tools included pre- and post-questionnaires aimed at measuring students' conceptual chemistry understanding and metacognitive knowledge in the context of reading strategies, before and after exposure to the CBL. Chemistry understanding was reflected by students' ability to identify the main subject of the adapted article and by explaining concepts both textually and visually. We found that high-intensity CBL combined with metacognitive prompts improved students' chemistry understanding of the adapted scientific articles and the ability to regulate their learning. Our study establishes that reading context-based adapted scientific articles advances students' conceptual chemistry understanding. These gains are strongly amplified by domain-specific metacognitive prompts. 相似文献
16.
The study explored the effects of an 8-week intervention in which a teacher/researcher used direct instruction to show the multiple meanings of 7 words to 4 deaf students ages 11-13 years in a school for the deaf. Applying conclusions from emerging research that links knowledge and strategy with metacognitive skills, the teacher/researcher used specific metacognitive strategies to facilitate both the acquisition of the concept of multimeaning words and the ability to distinguish one meaning from another while reading, and thus improved the students' reading comprehension. The study participants were able to increase their vocabulary of multimeaning words as well as their reading comprehension in general, and, overall, experienced an improvement in their observable understanding and confidence when approaching the task of reading. 相似文献
17.
The purpose of this study was to improve the reading performance of children with learning disabilities using a classroom-based metacognitive reading program. The participants were third- and fourth-level 8- and 9-year-olds (13 boys and 5 girls) at a school for children with learning disabilities. A cross-sectional time series design was used. During pre- and posttesting participants were assessed on two measures of strategy awareness and a measure of perceived self-competence. During the instructional phase the metacognitive reading program was introduced. Participants were assessed on measures of reading performance throughout the study. In general, the findings were positive: Students increased in performance and awareness of strategies from pre- to posttesting. In addition, participants were placed in subgroups based on pretesting assessments. The subgroups differed on their improvements over time. This study provides preliminary evidence that a metacognitive reading program can be used with children with learning disabilities to improve their awareness about reading and their comprehension skills. 相似文献
18.
Bernadet de Jager Margo Jansen Gerry Reezigt 《School Effectiveness & School Improvement》2013,24(2):179-196
Constructivist ideas have influenced recent major innovations in Dutch secondary education and new curricula for reading and math in primary education, for example, pay much more attention to metacognition than before. In our study, we compared the growth of student metacognition in varying learning environments, direct instruction, and cognitive apprenticeship in primary school. The study also included a control group of teachers. In order to measure metacognition we developed a questionnaire, with separate parts for metacognitive skills and metacognitive knowledge. In the item selection procedure we made use of item response modeling. It was found that in the direct instruction and the cognitive apprenticeship group the pupils had higher scores on metacognitive skills and metacognitive knowledge compared to the control group pupils. No clear differences were found between direct instruction and cognitive apprenticeship. Interactions of learning environment and student intelligence were non-significant for both output measures. 相似文献
19.
Richard T. White 《Instructional Science》1976,5(2):133-152
An investigation was made of the effects of amount of guidance, sequence of instruction, and attribute-treatment interactions on speed of learning, retention, and transfer of ten intellectual skills that form part of a learning hiererchy and which are commonly part of secondary school physics courses. Four clearly-defined instructional methods were used; the methods form a linear scale from least to most guidance. It was found that the numbers of errors made in reaching a criterion performance on the skills decreased as the amount of guidance was increased, but transfer and retention were unaffected. Two sequence styles were used, which were both consistent with the requirement that no skill should be taught before the skills that were subordinate to it in the learning hierarchy. Form of sequence had no effect on speed of learning, retention, or transfer, and there was no interaction between sequence and amount of guidance. A novel method was employed to search for the presence of any interaction between attributes of learners and the amount of guidance. None was found. It is concluded that a maximum of guidance can be used to teach intellectual skills to all learners with no negative effect on retention and transfer. It is suggested that variables other than amount of guidance or sequence are more likely to affect a learner's retention or transfer of a skill. Finally, patterns of retention of skills that are connected in the learning hierarchy were found to be contrary to an earlier result. The patterns suggest that a skill in a learning hierarchy cannot be recalled unless its relevant subordinate skills are also recalled. 相似文献
20.
This study examined the metacognitive developmental patterns of Hong Kong school students. Students rated their own metacognitive competencies by responding to an inventory of six motivational‐ and cognitive‐metacognitive subscales. Results showed that students' metacognitive competencies decreased with age—from primary 4 (age 9) to secondary 5 (age 17)—with a sharp decline noticeable at the primary/secondary school transition. Age had a more powerful effect than gender on students' perception of their metacognitive competencies. This decreasing pattern of Hong Kong students' metacognitive competencies is contrary to the developmental trends found in Western countries. However, the comparatively high academic performance of Hong Kong students also suggests some different recommendations about student learning. 相似文献