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1.
In separate studies on academic self-concept, previous research has shown: (1) the distinctiveness of a cognitive and an affective component, (2) the domain specificity of self-concepts, (3) the reciprocal effects of self-concept and achievement, (4) the internal/external frame of reference in self-concept development, (5) the reciprocal effects of the internal/external frame of reference, (6) the big-fish-little-pond effect, and (7) the interrelatedness of self-concepts in similar domains. The present study demonstrates that all of these seven findings are replicable and may be synthesized in a single study with a sample of students in Singapore. Secondary 1 students (7th graders; N = 275) were surveyed with 24 items about their academic self-concepts in physics, English, and math in two components (cognitive and affective), and their respective achievement scores were recorded over two time points. Confirmatory factor analysis found that the cognitive and affective components of academic self-concept were separable. The students’ self-concepts in different curriculum domains were distinct, supporting the domain specificity of self-concepts. The frame of reference and reciprocal effects were both supported, but only for the cognitive component of self-concept. Positive and statistically significant correlations between physics and math suggest that these curriculum domains were interrelated. Results of self-concept studies in schools can encourage and guide the design of interventions that could enhance students’ self-concept for positive sustainable effects on desirable educational outcomes. Attempts to improve learning outcomes should emphasize an enhancement of specific components of academic self-concept in domain-specific and related curriculum domains for optimal effects. 相似文献
2.
The present research is the first to integrate three major theories of academic self-concept formation into one framework: the big-fish-little-pond effect (BFLPE), the basking-in-reflected-glory effect (BIRGE), and the internal/external frame of reference (I/E) model. For separating the BFLPE and the BIRGE, we introduced students’ collective self-concepts, defined as their perceptions of domain-specific abilities of their group (e.g., their class). We tested our newly developed model, predicting students’ math and verbal self-concepts, in the field (N = 2,001 students from 110 classes) and in the laboratory (N = 315 students in groups of three). In both studies, we found support for (1) the BFLPE (i.e., negative effects of group-average achievements on individual self-concepts within domains), (2) the BIRGE (i.e., positive effects of collective self-concepts on individual self-concepts within domains), and (3) the I/E model (i.e., positive/negative effects of individual achievements on individual self-concepts within/between domains). Moreover, for the first time, we have largely replicated the I/E model relations for predicting students’ collective self-concepts by their group-average achievements. Interestingly, the BIRGE exceeded the BFLPE in both studies. This finding demonstrates the high suitability of collective self-concepts for operationalizing the BIRGE. Overall, our findings substantially enhance our knowledge of the cognitive processes involved in students’ self-concept formation. 相似文献
3.
A qualitative biomechanics (functional anatomy) course is a typical course in kinesiology curriculum. Most evidence suggests that biomechanics learning could be improved with the inclusion of laboratory experiences. However, implementing laboratories into biomechanics curriculum is difficult due to cost and time constraints. This study was conducted to evaluate whether hands-on activities in lecture improve qualitative biomechanics learning. A lecture format was compared to the same course with guided and unguided hands-on activities included during lecture. Test performance and student evaluations were compared between lecture formats to determine if hands-on experiences improve learning. The hands-on group performed better on the same test questions and they evaluated their overall course activities as beneficial to their learning. The findings suggest that guided hands-on experiences may improve learning compared to unguided activities. The hands-on experiences seem to provide an embodied cognitive learning experience, facilitating retention of learned material through three-dimensional and tactile mental representations. Findings from this research are currently shaping how biomechanics is taught to students at this university and could at other universities as well. 相似文献
4.
Din Yan Yip Wing Kwong Tsang 《International Journal of Science and Mathematics Education》2007,5(3):393-413
A longitudinal study has been conducted to explore the impact of a new language policy for Hong Kong secondary schools on
science learning. According to this policy, only schools that recruit the best 25% of students can teach science in English,
the students' second language, while the other schools have to teach science in Chinese, the students' native language. The
study involved a student cohort of 100 schools starting from S1 for three years. The outcome of science learning is conceptualized
as consisting of students' achievement and self-concept in science. This paper reports the possible effects of English-medium
instruction (EMI) and Chinese-medium instruction (CMI) on students' self-concept in science, as measured by students' responses
to a questionnaire. Comparing with the CMI students, the EMI students showed higher self-concepts in Chinese, English and
Mathematics, but a lower self-concept in science. This finding suggests that the EMI students might experience greater learning
problems in science than in other subjects, probably because science learning involves abstract thinking and the mastery of
scientific terminology which make a high demand on language proficiency. The EMI students showed a greater interest in learning
science than the CMI students, indicating that they were more academically oriented. The EMI students, however, formed a lower
perceived self-competence in science than their CMI peers, despite that they performed better in the science achievement test
than many of the CMI students. This perception supports the view that using English for instruction may have negative effects
on science learning. It is also consistent with the observation that the EMI students perceived science as more difficult
to understand and learn than the CMI students. 相似文献
5.
Microplastic pollution is a growing issue of concern requiring appropriate classroom instruction. Educational initiatives within this context are supposed to provide relevant background knowledge, raise awareness, and ideally lead to sustainable behavior. We implemented an identical educational module within two different learning environments: formal (in-school) and informal (out-of-school). In both settings, 444 primary school students self-reliably completed hands-on activities at workstations. We monitored students' short-term (directly after the module) and long-term (after six weeks) cognitive achievement. Additionally, when examining the participants' environmental values (Preservation, Utilization) and the Appreciation of Nature, the program similarly appealed to all students independent of the environmental values' intensity. Preservation, Utilization, and the Study Group predicted knowledge levels after program participation; Appreciation did not. While Preservation positively influenced knowledge, Utilization did the contrary. Subsequent implications on learning strategies based on our results are discussed. 相似文献
6.
The self-concepts of educable mentally impaired, learning disabled, and nonhandicapped children were assessed using the Student Self-Evaluation (SSE), Teacher Evaluation Scale (TES), and How I See Myself (HISM) test. A Groups × Age × Sex analysis of covariance, with IQ effects statistically controlled, was computed for each measure. On the SSE, the groups were significantly different, with nonhandicapped students having better self-concepts than learning disabled students, and learning disabled students having better self-concepts than educable mentally impaired students. Teacher estimates of self-concept (TES) indicated that nonhandicapped students have better self-concepts than have handicapped students. For the HISM scores, there was a Group × Sex interaction, but no significant main effects; there was no consistent pattern to the interactions. The results suggest that handicapped children, as a group, have a lower self-concept than have nonhandicapped children. Implications for educational programming and future research are offered. 相似文献
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In line with previous studies, where outdoor nature experience was shown to support adolescents’ environmental knowledge, our study monitored the influence of a hands-on environmental programme within a National Park on cognitive knowledge achievement. A sample of 4th and 5th graders (n = 289) completed a week-long outreach conservation programme with two follow-up options: the first group (n = 170) interacted with thematic posters, the second group (n = 128) also completed a thematic board game. In a quasi-experimental design, we analysed both versions with regard to achievement efforts and individual situational emotions. Altogether, programme participation added cognitive knowledge, while group one (poster and board game as follow-up option) outmatched group two (just the poster option). Measures of 'state' and 'situational' emotions regarding the programme and right after game participation revealed positive effects toward knowledge. Thus, we conclude, direct experiences with nature and additional hands-on follow-up activities may foster a student’s cognitive achievement in such programmes. 相似文献
9.
Alex Kumi–Yeboah James Dogbey Guangji Yuan 《Journal of Research on Technology in Education》2018,50(1):1-17
The rapid growth of online education at the K-12 level in recent years presents the need to explore issues that influence the academic experiences of students choosing this method of learning. In this study, we examined factors that promote/hinder the learning experiences and academic self-concept of minority students attending an online high school. Qualitative interviews were conducted with twenty-four African American, and sixteen Hispanic high school students. The results showed that collaborative learning activities, access to resources, time convenience, student-teacher interactions, student-student interactions, improved academic behavior, and parental support helped to enhance online learning experiences and academic self-concept of the minority students. On the contrary, the lack of social presence, and the lack of cultural inclusion in course content constrain online learning experiences and academic self-concept of the students. The findings revealed some similarities between factors that influence minority students learning experiences online, and in face-to-face setting. The study also highlighted the need for teachers of online courses to understand the cultural backgrounds of minority students, and to use their knowledge to improve the learning experiences and academic self-concept of these students. Implications for teaching minority high school students in an online environment, as well as suggestions for future research are provided. (Keywords: minority students, K-12 online school, factors, online learning, self-concept) 相似文献
10.
Genetics is known to be one of the most challenging subjects in biology education because of its abstract concepts and processes. Therefore, hands-on experiments in authentic learning environments are supposed to increase comprehensibility and provide otherwise unavailable experiences to students. We applied a hands-on module in an out-of-school gene technology lab, combining experimentation and model work, in order to support the experimental work. In comparing the impact of two different approaches on cognitive achievement, cognitive load and instructional efficiency, we divided our sample (N = 254) into two groups: While both were subjected to the experimental part of the module, the modellers (n = 120) were required to generate a DNA model using assorted handcrafting materials, whereas the model viewers (n = 134) worked with a commercially available school model of DNA structure. Interestingly, the model viewers performed significantly better regarding a mid-term knowledge increase, while individual cognitive load scores during the activity remained similar. Accordingly, the model viewing approach produced significantly higher scores for instructional efficiency, pointing to enhanced cognitive achievement through a more intense perception of the DNA models’ correct contents. While at the first glance our results seem surprising, implications for teaching when models come into play and ways to avoid such discrepancies are discussed. Consequently, recommendations for classroom impacts are presented.
相似文献11.
The Tennessee self-concept scale was used to measure the self-concept of eighty-eight college freshmen at the end of their first semester in college. Forty-four of these students had been randomly assigned to a large scale mastery learning environment, and the other forty-four were randomly assigned to conventional classes. “T-test” ratios indicate that the mastery learning students have higher self-concepts than do their conventional counterparts. 相似文献
12.
Oliver Dickhäuser Marc-André Reinhard 《European Journal of Psychology of Education - EJPE》2010,25(3):399-409
Individual differences in need for cognition (NFC) have been found to correspond with differences in information processing.
Individuals with lower NFC process information using a peripheral route compared to individuals higher in NFC. These differences
may effect the formation of performance expectancies. Based on previous work demonstrating that the formation of performance
expectancies can be understood as an information-processing event and that inferring expectancies from the specific self-concept
requires cognitive motivation, we tested whether students with higher NFC had performance expectancies in a specific subject
that more strongly depended on their specific self-concept. Three hundred seventy-five students from grade 8 and 9 reported
their NFC, their performance expectancies for the final report card in Mathematics and German, the general self-concept, and
specific self-concepts in Mathematics and German. Multiple linear regressions supported the interaction hypothesis concerning
performance expectancies in Mathematics and German. The higher the students’ NFC, the stronger performance expectancies were
related to the corresponding specific self-concept. Individual differences in NFC influence motivational processes and should
be included in models describing the relation between self-concepts and students’ beliefs like expectancies. 相似文献
13.
The present study investigated the relationships between academic selfconcepts, learner self-concept, and approaches to learning in elementary school students. A sample of 580 Australian Grade 6 and 7 school students with a mean age of 10.7 years participated in the study. Weak negative correlations between learner self-concepts and surface approaches to learning were identified. In contrast, deep approaches for both boys and girls showed the highest positive correlations with school self-concept and learning self-concept. Only slight variations in these figures were found between boys and girls. 相似文献
14.
The current research examined the role that students’ discipline-related self-concepts may play in their deep and surface approaches to learning, their overall learning outcomes, and continued engagement in the discipline itself. Using a cross-lagged panel design of first-year university psychology students, a causal path was observed in which students’ Semester 1 deep approach to learning positively predicted their Semester 2 psychology-student social identification; this relationship was mediated by students’ actual Semester 1 learning. Moreover, relatively high levels of Semester 2 psychology-student social identification led to a desire for further engagement in the discipline through an enhanced intent to continue their psychology studies. In contrast, discipline-related self-concept was not observed to act as a precursor to learning approaches. Overall, the current data provide clear evidence not only for the validity of the deep learning approach construct, but for the theoretical claims associating a deep learning approach with an impact on self-concept, and the educational value of encouraging a deep learning approach both for short-term academic performance and for continuing motivation to engage in the discipline. 相似文献
15.
基于游戏化学习体验的基本理论框架,通过对学生游戏化学习体验的质性分析,本文探究了游戏化学习体验中认知体验与主体性体验的核心内容。本研究基于对多种资料的分析,归纳了游戏化学习过程中认知体验的过程要素,包含知识探究、学习迁移和认知成果;建构了主体性体验的核心要素,包括学习过程中的情绪状态、游戏与学习动机和反思意愿。对游戏化学习体验的核心内容的探究有助于理解游戏化学习行为,了解学生游戏化学习体验的个体差异,为教育游戏的设计和评估提供了重要参考。 相似文献
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17.
Marjorie Darrah Roxann Humbert Jeanne Finstein Marllin Simon John Hopkins 《Journal of Science Education and Technology》2014,23(6):803-814
Most physics professors would agree that the lab experiences students have in introductory physics are central to the learning of the concepts in the course. It is also true that these physics labs require time and money for upkeep, not to mention the hours spent setting up and taking down labs. Virtual physics lab experiences can provide an alternative or supplement to these traditional hands-on labs. However, physics professors may be very hesitant to give up the hands-on labs, which have been such a central part of their courses, for a more cost and time-saving virtual alternative. Thus, it is important to investigate how the learning from these virtual experiences compares to that acquired through a hands-on experience. This study evaluated a comprehensive set of virtual labs for introductory level college physics courses and compared them to a hands-on physics lab experience. Each of the virtual labs contains everything a student needs to conduct a physics laboratory experiment, including: objectives, background theory, 3D simulation, brief video, data collection tools, pre- and postlab questions, and postlab quiz. This research was conducted with 224 students from two large universities and investigated the learning that occurred with students using the virtual labs either in a lab setting or as a supplement to hands-on labs versus a control group of students using the traditional hands-on labs only. Findings from both university settings showed the virtual labs to be as effective as the traditional hands-on physics labs. 相似文献
18.
Both academic self-concept and interest are considered domain-specific constructs. Previous research has not yet explored how the composition of the courses affects the domain-specificity of these constructs. Using data from a large-scale study in Germany, we compared ninth-grade students who were taught science as an integrated subject with students who were taught biology, chemistry, and physics separately with regard to the dimensional structure of their self-concepts and interests. Whereas the structure of the constructs was six-dimensional in both groups (self-concept and interest factors for biology, chemistry, and physics), the correlations between the domain-specific factors were higher in the integrated group. Furthermore, the pattern of gender differences differed across groups. Whereas male students generally showed higher self-concept and interest in physics and chemistry, a small advantage for male students in biology was only present in integrated science teaching group. We conclude that aspects of the learning environment such as course composition may affect the dimensional structure of motivational constructs. 相似文献
19.
曾蕾 《昆明师范高等专科学校学报》2007,29(1):95-99
选取学生424人进行实证研究。主要研究结果如下:1.学习困难学生显著的表现为较为消极,较少使用积极的成熟的应对方式,而更多地使用“自责”、“幻想”、“退避”等消极、不成熟的应对方式;2.从心理特点来看,学习困难学生的自我概念比较消极,并且具有一些不良的人格特征;3.学习困难学生消极的自我概念及不健康的人格是导致他们倾向于采用不成熟的应对方式的重要因素。 相似文献
20.
Within midwifery education, enquiry-based learning is a well-established means of optimising students’ autonomous discovery, knowledge acquisition and problem-to-creative-solution design. Similarly, as undergraduates they have an innate relationship with technology, which also serves to enhance their cognitive processing skills and overall learning gain. Yet in spite of the benefits of technology-infused learning, the healthcare sector reportedly struggles with integrating technology into enquiry-based learning experiences. This paper reports on one rapid application cycle of a motivational design model that aimed to motivationally influence midwifery students’ willingness to engage with technology; as a means of optimising their enquiry-based learning experiences. Phase one observes how midwifery students from Northern Ireland, spontaneously used technology during the enquiry-based cycle. Phase two describes how technology was introduced to enhance group learning. Phase three reports on the students’ evaluation of the integrated technology. The findings demonstrate that students perceive technology to be a valuable means for discipline-orientated learning. 相似文献