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1.
Ah-Fur Lai Chih-Hung Chen Gon-Yi Lee 《British journal of educational technology : journal of the Council for Educational Technology》2019,50(1):232-247
Reading has been regarded as a medium for learning science, revealing the importance of enhancing learners’ reading competence in science education. The critical features of science texts are their multiple representations, such as text and visual elements, which assist the representation of science concepts. A multimedia learning environment can present relevant materials in various formats and help students to process the materials in meaningful ways, for example, by integrating learning materials with relevant prior concepts, and organizing them into a consistent and coherent cognitive structure. However, some issues with multimedia instructional design have been proposed, such as students’ cognitive load and learning motivations. In this study, an augmented reality-based science learning system was developed based on the contiguity principle of multimedia learning in order to promote students’ science learning. Moreover, an experiment was conducted on a natural science course in an elementary school to assess the effectiveness of the implemented system on students’ learning. The experimental results display that the students learning with this approach found made significant gains in their learning achievements and motivations compared to those learning science with conventional multimedia science learning; moreover, their perceptions of extraneous cognitive load were significantly reduced during the learning activity. 相似文献
2.
The purpose of this study was to examine the relationships between (a) novelty and exploratory behavior, (b) novelty and cognitive learning, and (c) exploratory behavior and cognitive learning in science museums. Sixty-four sixth-grade public school students participated in a posttest-only control group design. The control group received a treatment designed to decrease the novelty of a field trip setting through a vicarious exposure while the placebo group received an informative but not novelty-reducing treatment. Both groups then visited the field site where they were videotaped. Statistical analyses were conducted on both dependent variables with socioeconomic status and academic achievement as covariates, novelty-reducing preparation as the independent variable, and gender as moderator variable. Exploratory behavior was shown to be positively correlated with cognitive learning. Significant differences were detected for exploratory behavior. For both dependent variables, gender by treatment group interaction was significant with novelty-reducing preparation shown to be highly effective on boys but having no effect on girls. 相似文献
3.
Yasemin Tas 《European Journal of Psychology of Education - EJPE》2016,31(4):557-577
This study investigated middle school students’ engagement in science in relation to students’ perceptions of the classroom learning environment (teacher support, student cohesiveness, and equity) and motivation (self-efficacy beliefs and achievement goals). The participants were 315 Turkish sixth and seventh grade students. Four hierarchical multiple regression analyses were conducted on the dependent variables of cognitive, behavioral, emotional, and agentic engagement. The results indicated that engagement components were positively predicted by most of the perceived learning environment variables, while motivational factors had some differential predictive effects on engagement components. The predictor variables explained 26, 28, 33, and 30 % of the variance in the cognitive, behavioral, emotional, and agentic engagement components, respectively. 相似文献
4.
Ting-Kuang Yeh Kuan-Yun Tseng Chung-Wen Cho James P. Barufaldi Mei-Shin Lin 《International Journal of Science Education》2013,35(10):1555-1570
The aim of this study was to develop an animation-based curriculum and to evaluate the effectiveness of animation-based instruction; the report involved the assessment of prior knowledge and the appropriate feedback approach, for the purpose of reducing perceived cognitive load and improving learning. The curriculum was comprised of five subunits designed to teach the ‘Principles of Earthquakes.’ Each subunit consisted of three modules: evaluation of prior knowledge with/without in-time feedback; animation-based instruction; and evaluation of learning outcomes with feedback. The 153 participants consisted of 10th grade high-school students. Seventy-eight students participated in the animation-based instruction, involving assessment of prior knowledge and appropriate feedback mechanism (APA group). A total of 75 students participated in animation-based learning that did not take into account their prior knowledge (ANPA group). The effectiveness of the instruction was then evaluated by using a Science Conception Test (SCT), a self-rating cognitive load questionnaire (CLQ), as well as a structured interview. The results indicated that: (1) Students' perceived cognitive load was reduced effectively through improving their prior knowledge by providing appropriate feedback. (2) When students perceived lower levels of cognitive load, they showed better learning outcome. The result of this study revealed that students of the APA group showed better performance than those of the ANPA group in an open-ended question. Furthermore, students' perceived cognitive load was negatively associated with their learning outcomes. 相似文献
5.
Tsung-Hau Jen Che-Di Lee Chin-Lung Chien Ying-Shao Hsu Kuan-Ming Chen 《International Journal of Science and Mathematics Education》2013,11(3):575-600
Based on the Trends in International Mathematics and Science Study 2007 study and a follow-up national survey, data for 3,901 Taiwanese grade 8 students were analyzed using structural equation modeling to confirm a social-relation-based affection-driven model (SRAM). SRAM hypothesized relationships among students’ perceived social relationships in science class and affective and cognitive learning outcomes to be examined. Furthermore, the path coefficients of SRAM for high- and low-achieving subgroups were compared. Given the 2-stage stratified clustering design for sampling, jackknife replications were conducted to estimate the sampling errors for all coefficients in SRAM. Results suggested that both perceived teacher–student relationships (PTSR) and perceived peer relationships (PPR) exert significant positive effects on students’ self-confidence in learning science (SCS) and on their positive attitude toward science (PATS). These affective learning outcomes (SCS and PATS) were found to play a significant role in mediating the perceived social relationships (PTSR and PPR) and science achievement. Further results regarding the differences in SRAM model fit between high- and low-achieving students are discussed, as are the educational and methodological implications of this study. 相似文献
6.
《The Journal of educational research》2012,105(3):220-232
ABSTRACT Field trips are effective because they situate learning and facilitate knowledge transfer, thereby influencing students learning attitudes, interests, and motivation. Variations in field trip configurations and the subsequent affective and cognitive influences provided the motivation for this study of Outside Day—an environmental education field trip for 6th-grade students. The participants were immediately postassessed on their attitudes toward the event and 1 month later assessed on their event activity recall. Results indicate the students held positive attitudes toward the field trip and recalled a hands-on orienteering activity most frequently. The discussion provides explanations and implications of findings. 相似文献
7.
ABSTRACTWhile motivational changes towards science are common during adolescence, our work asks which perceived classroom experiences are most strongly related to these changes. Additionally, we examine which experiences are most strongly associated with learning classroom content. In particular, using self-reports from a sample of approximately 3000 middle school students, this study investigates the influence of perceived science classroom experiences, namely student engagement and perceived success, on motivational change (fascination, values, competency belief) and content knowledge. Controlling for demographic information, school effects, and initial levels of motivation and content knowledge, we find that dimensions of engagement (affect, behavioural/cognitive) and perceived success are differentially associated with changes in particular motivational constructs and learning. Affective engagement is positively associated with motivational outcomes and negatively associated with learning outcomes, behavioural–cognitive engagement is associated only with learning, and perceived success is related only to motivational outcomes. Theoretical and practical implications are discussed. 相似文献
8.
Taking as a basis a conceptualisation of personal challenge having both cognitive/metacognitive (thinking) and affective (feeling)
components, the nature and extent of perceived challenge in learning and teaching science were explored for seven teachers
and thirty-seven students in five secondary schools over a period of five months. Findings suggest that many secondary students
are not challenged by the science they learn in school. Similary, many secondary science teachers are insufficiently challenged
by the task of teaching. There are indications, however, that science teaching and learning attitudes and practices can be
improved if teachers work to diagnose and change key classroom factors that influence level of perceived challenge in learning. 相似文献
9.
The present study of gifted students’ views of assessment is aimed at understanding how the employment of Embedded Assessment for Learning (EAfL) framework in science courses for the gifted affects the students’ views throughout the learning process. The participants were 86 students in three programmes for the gifted who elected project‐based science courses. The data included questionnaires, distributed at the beginning and at the end of the assessment processes in each science course, and in‐depth interviews with 12 students, which were analysed according to three main themes: general view of assessment; assessment modes; and relationships between assessment and learning. The students viewed the EAfL framework as an integral part of the learning process, and perceived it as a means of expressing autonomous learning and a range of performances; characteristics that correspond with the students’ unique needs. In addition, students addressed cognitive and social processes they had undergone. This implies that assessment which is explicitly designed to promote learning in science courses is a powerful tool for teachers as well as for students, and contributes to meaningful learning. 相似文献
10.
Today, science is a major part of western culture. Discussions about the need for members of the public to access and understand scientific information are therefore well established, citing the importance of such information to responsible citizenship, democracy, socially accountable scientific research and public funding (National Research Council [2009] Learning science in informal environments: People, places, and pursuits. National Academies Press). In recent years there has been an increased interest in investigating not just what visitors to informal environments have learnt after a visit, but also how visitors interact and engage with exhibits during the visit (Davidsson & Jakobsson [2012] Understanding interactions at science centers and museums: Approaching sociocultural perspectives. Rotterdam: Sense Publishers). Within the field of school visits to science museums, however, interactions between students and museum educators (MEs) remain relatively unexplored. In our study of such school visits, we are mainly interested in the interactions that take place between three agents—the students, the museum educator and the physical setting of the exhibit. Using moment-to-moment fine grain analysis of multiple interactions allowed us to identify recurring patterns between students and the museum educators around exhibits, and to examine the MEs’ mediational role during the interactions, and the practices they employ to engage students with exhibits. Our study revealed that most interactions between MEs and students consist of technical explanations of how to operate the exhibits. The interactions that do move past this stage often include two main practices, which the MEs use to promote students’ engagement with the exhibits: physical instruction and engaging the students emotionally. Understanding what is actually happening in the learning process that occurs during students’ interactions with exhibits can help museum educators and exhibit designers improve the experiences of students on school visits. 相似文献
11.
The research examined effects of notetaking instruction on elementary-aged students’ abilities to recall science information
and their notetaking behaviors. Classes of eight to nine years old third grade students were randomly assigned to three treatment
conditions: strategic notetaking, partial strategic notetaking, and control, for four training sessions. The effects of the
notetaking instruction were measured by their performances on a test about science information, a long-term free recall of
the information, and the number of information units recalled with or without cues. Students’ prior science achievement was
used to group students into two levels (high vs. low) and functioned as another independent variable in analysis. Results
indicated significant treatment effect in favor of the strategy notetaking instruction groups on cued and non-cued recall
of the information units. Students with higher prior achievement in science performed better on cued recall and long-term
free recall of information. The results suggest that students as young as those in third grade classes can be instructed to
develop notetaking ability that promotes their learning. 相似文献
12.
Huann-shyang Lin Zuway-R Hong Ya-Chun Chen 《International Journal of Science Education》2013,35(13):2152-2173
This quasi-experimental study explores how student cumulative situational interest, short-term preference generated by particular conditions such as novel experiences can be developed into better individual interest, an enduring predisposition to engage in certain activity such as chemistry lessons. A continuous intervention of integrating novelty and aesthetic experience into teaching was used for the experimental group (n?=?64) while another class of 105 students studying another course of physical science without the intervention of novelty and aesthetics served as a comparison group. The analysis of covariance comparing the two group students' pre- and post-test perceptions of learning science revealed that the experimental group outperformed the comparison group in their perceptions of interest, enjoyment, and aesthetics. The weekly assessment of student situational interest indicated that the experimental group students' situational interests were well maintained by two leading learning activities: demonstrations and hands-on experiments with novelty and aesthetic experience. The above results provide empirical evidence to support the theory of interest development, which proposes that the development goes through a cumulative and progressive procedure. 相似文献
13.
In the study described in this article a questionnaire was employed that can be used to assess students' and teachers' perceptions of science teachers' interpersonal communication behaviors in their classroom learning environments. The Teacher Communication Behavior Questionnaire (TCBQ) has five scales: Challenging, Encouragement and Praise, Non‐Verbal Support, Understanding and Friendly, and Controlling. The TCBQ was used with a large sample of secondary science students in Taiwan, which provided additional validation data for the TCBQ for use in Taiwan and cross‐validation data for its use in English‐speaking countries. Girls perceived their teachers as more understanding and friendly than did boys, and teachers in biological science classrooms exhibited more favorable behavior toward their students than did those in physical science classrooms. Differences were also noted between the perceptions of the students and their teachers. Positive relationships were found between students' perceptions of their teachers' communication behaviors and their attitudes toward science. Students' cognitive achievement scores were higher when students perceived their teacher as using more challenging questions, as giving more nonverbal support, and as being more understanding and friendly. The development of both teacher and student versions of the TCBQ enhances the possibility of the use of the instrument by teachers. © 2002 John Wiley & Sons, Inc. J Res Sci Teach 39: 63–78, 2002 相似文献
14.
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
15.
Comics are popular with adolescents because of their features of humor, narrative, and visual imagery. The purposes of this study were to examine the learning outcomes and emotional perceptions of reading a science comic book and a science text booklet for students of different levels of achievement, and to explore the main factors of the two media which attract high-school students to learn science. A mixed-method quasi-experimental design was adopted. The participants were 697 grade ten students from eight schools with different levels of academic achievement. Two similar classes in each of the eight schools were assigned as the comic group or the text group. The results indicated that the science comic book benefited medium achievers more than the science text booklet did, but the contrary result was found for the high achievers. In comparison, the two media benefited the low achievers equally, but both had only a limited effect due to the students’ lack of prior knowledge. We conclude four kinds of evidence, including perceived difficulty of comprehension, reasons for interest/disinterest, emotional perceptions of learning science, and learning time, to support the phenomenon of the learning benefit of media specific to certain achievers’ science learning. 相似文献
16.
Neta Shaby Orit Ben-Zvi Assaraf Tali Tal 《Journal of Science Education and Technology》2017,26(3):253-268
This research explores learning in science museums through the most common activity in a science museum—interaction with exhibits. The goal of this study was to characterize the learning behaviors exhibited by students as they engage with interactive exhibits in order to draw insight regarding the design of the exhibits. In order to do so, we used a qualitative method of observation as well as the Visitor Engagement Framework (VEF) model, a visitor-based framework for assessing visitors’ learning experiences with exhibits in a science center setting. The combined method produced a framework of nine learning behaviors exhibited during the visitors’ interaction with the exhibits, grouped into three categories that reflect increasing levels of engagement and depth of the learning experience. Our research participants consisted of a total 1800 students aged 10–12 (4th, 5th, and 6th graders) who came to the museum with their class for a day visit. We observed nine exhibits, each visited by 200 students. Our observations revealed several design elements that contribute to engagement with exhibits in science museums. For example, exhibits that have familiar activation encourage visitors’ interaction, exhibits that facilitate social interaction are more likely to increase engagement, and the highest levels of engagement can be found in exhibits that support large groups. 相似文献
17.
ABSTRACT: Interteaching is a new pedagogical strategy for classroom instruction that demonstrates great effective student learning outcomes in the field of psychology. It is a 20 to 30 min student‐to‐student discussion addressing the main points in a specified body of reading materials. Interteaching includes elements such as reciprocal peer tutoring, cooperative learning, and problem‐based learning. These elements have been well theorized and their effectiveness has been empirically documented. To date, little is known about the effects of interteaching on students' perceived learning outcomes in food science and nutrition. This case study describes how the interteach method was employed in an undergraduate nutrition and food science course with specific examples of the tools used, such as interteach preparation guides, the interteach record form, and the peer assessment form. Based on the continuous feedback provided by the students during the course work, several specific modifications were made from the conventional interteaching methods, including 4‐person interteaching instead of one‐on‐one interteaching, as well as the use of in‐class thought‐provoking “synthesis” questions. At the end of the course, we assessed the students' perceptions of interteaching, as well as the students' perceived learning outcomes. The method generally fostered critical thinking and enhanced their motivation, which led to their perceived learning. On the other hand, some of the students expressed challenges in learning from peers due to their peers' varied preparation levels, as well as tackling complex scientific concepts prior to lectures. Further investigation is needed to develop possible strategies for accommodating the challenges among students with different learning styles. 相似文献
18.
Research has shown that differences in the prior knowledge of the participants and in the learning indexes adopted can explain why some studies show positive learning effects of analogy enriched text while others do not. In the present studies, these two factors were combined into one through the construction of a learning index that measured incremental positive changes in the participants' prior knowledge after reading an analogy enriched or no analogy text. A second learning index was also used to evaluate whether the participants created well-formed conceptual models after reading the science text. These learning indexes were used in two studies in which the effects of analogy enriched versus no analogy text were compared on the learning of the scientific explanations of the day/night cycle and of the seasons. The participants were 3rd and 5th graders in the first study and 6th graders and college students in the other. Although only few of the participants learned the correct scientific explanation, those who read the analogy enriched text produced more incremental positive changes in their pretest explanations at posttest and delayed test and created more well-formed conceptual models close to the scientific one than those who read the no analogy text. They also recalled more information and created fewer invalid inferences in their recalls. The results indicate that analogies can be used without reservation to facilitate the learning of science and have broader implications about how to evaluate the learning of science in general. 相似文献
19.
Higher education has struggled to acknowledge and translate into better teaching and learning practices that sizeable literature base suggesting a link between cognitive style, learning preferences, and performance. Research is reported in which 80 undergraduate students on a primary education degree were studied to examine the relationship between their cognitive style, their learning preferences, and perceived impact on their teaching practices. All students completed the CSA measure of cognitive style, the ASSIST, two further questionnaires exploring learning preferences and perception of good teaching during the course, and an evaluation at the end of the teaching unit. Significant differences were found between the three cognitive styles investigated: wholist, intermediate, and analytic. In terms of learning preferences, using ANOVA statistically significant differences were found between the three styles with wholists being most concerned about speed of delivery and least liking computer‐assisted learning. In addition, wholists preferred less structure than analytics in their teaching and claimed to use more images while analytics claimed to use more speech in their teaching. Intermediates demonstrated a greater preference for tangential approaches to teaching and were least happy with the nature of the teaching they had received while at university. Many of the differences reported in the literature between the different cognitive styles were not evident in this study. However, the interpersonal and intrapersonal characteristics of wholists and analytics, respectively, were evident and perceived to impact on planning and delivery in the classroom. While further school‐based research involving greater numbers is required, interest in learning styles remains especially relevant if one intends to offer a truly inclusive education for all learners. 相似文献
20.
Design and evaluation of a development portfolio: how to improve students’ self-directed learning skills 总被引:1,自引:0,他引:1
Wendy Kicken Saskia Brand-Gruwel Jeroen van Merri?nboer Wim Slot 《Instructional Science》2009,37(5):453-473
In on-demand education, students often experience problems with directing their own learning processes. A Structured Task
Evaluation and Planning Portfolio (STEPP) was designed to help students develop 3 basic self-directed learning skills: Assessing
the quality of own performance, formulating learning needs, and selecting future learning tasks. A case study with 10 first-year
students in the domain of hairdressing was conducted to evaluate STEPP’s use, usability, and perceived effectiveness. Results
from student interviews show that usability and use are influenced by several factors. Students with low prior hairdressing
skills, a weakly developed personal approach to direct their own learning, and an inclination to update STEPP as part of their
weekly routine, use STEPP more frequently than students without these characteristics. Both the supervisor and students who
frequently used STEPP perceived its use as a positive contribution to the development of self-directed learning skills. Furthermore,
this study provides guidelines for the design of development portfolios in on-demand education. 相似文献