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1.
The goal of this study was to identify and understand the mental models developed by 67 high school biology students as they learn about the human body as a complex system. Using concept maps, it sought to find an external way of representing how students organize their ideas about the human body system in their minds. We conducted a qualitative analysis of four concept maps created by each student throughout the 3-year learning process, which allowed us to identify that student’s systems thinking skills and the development of those skills over time. The improvement trajectories of the students were defined according to three central characteristics of complex systems: (a) hierarchy, (b) homeostasis and (c) dynamism. A comparative analysis of all of our students’ individual trajectories together revealed four typical learning patterns, each of which reflects a different form of development for systems thinking: “from the structure to the process level”, “from macro to micro level”, “from the cellular level to the organism level,” and “development in complexity of homeostasis mechanisms”. Despite their differences, each of these models developed over time from simpler structures, which evolved as they connected with more complex system aspects, and each indicates advancement in the student’s systems thinking. 相似文献
2.
Reflective learning can assist a learner’s purposeful and conscious manipulation of ideas toward meaningful learning and knowledge
integration. Blogs have been used to support reflection, but Blogs usually do not provide overt mechanisms for students to
make connections between different parts of an experience, which is integral to reflective activity. A blogging-mapping tool
was designed to support the reflective learning process. The tool allowed students to write blog posts, attach up to five
keywords to each post, and link the keywords on a concept map. This study aimed to seek patterns of participants’ use of the
tool, including evidence of reflective learning, identified as integration between concept maps and blogs. Nine graduate students
participated in the study for a semester. Data analysis included examining concept maps for knowledge integration over time.
Participants’ various mapping activities implied different levels of thinking. Some participants’ final concept maps showed
signs that they tried to integrate knowledge around the content area. Yet, the inconsistent and inconclusive patterns of participants’
concept mapping activities signaled that more strategies were needed to sustain their commitment. 相似文献
3.
David B. Hay Caroline Kehoe Marc E. Miquel Stylianos Hatzipanagos Ian M. Kinchin Steve F. Keevil Simon Lygo‐Baker 《British journal of educational technology : journal of the Council for Educational Technology》2008,39(6):1037-1056
This paper shows how concept mapping can be used to measure the quality of e‐learning. Six volunteers (all of them 3rd‐year medical students) took part in a programme of e‐learning designed to teach the principles of magnetic resonance imaging (MRI). Their understanding of MRI was measured before and after the course by the use of concept mapping. The quality of change in individuals' maps was assessed using criteria developed to distinguish between meaningful and rote‐learning outcomes. Student maps were also scored for evidence of conceptual richness and understanding. Finally, each map was compared directly with the content of the electronic teaching material. The results show that many of the student misconceptions were put right in the course of their learning but that many of the key concepts introduced in the teaching were ignored (or sometimes learnt by rote) by the students. This was because the teaching material locked these new ideas in structures and terminology that precluded meaning‐making among non‐experts. Our data suggest that students' prior knowledge is a key determinant of meaningful learning. We suggest that this must be acknowledged if the design and use of electronic teaching material is also to be meaningful. Ultimately, measures of student learning are the only authentic indicators of the quality of teaching through technology. 相似文献
4.
Tania von der Heidt 《Assessment & Evaluation in Higher Education》2015,40(2):286-308
This paper explains the application of concept mapping to help foster a learning-centred approach. It investigates how concept maps are used to measure the change in learning following a two-week intensive undergraduate Marketing Principles course delivered to 162 Chinese students undertaking a Bachelor of Business Administration programme in China. Using four scoring procedures (breadth of knowledge, relational quality, structural quality and holistic quality), student learning is assessed in terms of prior and new knowledge, as well as improvement in knowledge structure. Concept map scores are correlated with conventional measures of overall student performance. The results provide strong evidence for improvement in students’ ability to externalise new learned concepts resulting from intensive instruction. Incorporating concept maps as a contemporary method of learning in the curriculum potentially enriches student learning, provides a measure of the impact of teaching on students’ learning and adds value to students’ higher education experience. 相似文献
5.
In this study, concept map activities were used to trigger group discussions about inclusive education, with a focus on learners with disabilities. The participants were 226 Tanzanian student teachers. This article reports and discusses how the maps were analysed and what they indicate about the students’ thinking about certain aspects of inclusive education. The results also indicate that concept mapping as an activity in teacher education may be useful and engaging for students. It may help them to organise knowledge and make them aware of their own and others’ understanding of inclusive education practices. An analysis of concept maps constructed by student teachers may also help lecturers to identify views, misconceptions, knowledge gaps and insights about inclusion in education settings. 相似文献
6.
Recent studies in learning programming have largely focused on high school and college students; less is known about how young children learn to program. From video data of 20 students using a graphical programming interface, we identified ideas that were shared and evolved through an elementary school classroom. In mapping these ideas and their resulting changes in programs and outputs, we were able to identify the contextual features which contributed to how ideas moved through the classroom as students learned. We suggest this process of idea mapping in visual programming environments as a viable method for understanding collaborative, constructivist learning as well as a context under which experiences can be developed to improve student learning. 相似文献
7.
《Journal of Further & Higher Education》2012,36(3):205-218
The zones framework conceived for the examination of thinking about teaching, is validated, and extended to the examination of thinking about learning. This is done by extending the framework to examine thinking about teaching and learning in a population of science graduate student teaching assistants. Semi‐structured interviews explore these students’ teaching and learning experiences, how their experiences relate to their knowledge of educational theory, and how they have formed their ideas about what constitutes good teaching. The article demonstrates that the zones framework can be extended to thinking about learning, and that it is appropriate for examining the thinking of students as well as teachers. Recommendations for further research are made, including the exploration of discipline‐specific thinking. 相似文献
8.
An Investigation of Concept Mapping to Improve the Reading Comprehension of Science Texts 总被引:1,自引:1,他引:0
Kevin Oliver 《Journal of Science Education and Technology》2009,18(5):402-414
This study investigated how well 74 6th-grade science students represented text structures from a 900-word textbook chapter
on soil conservation, given a concept map template with four superordinate terms and 24 unsorted concepts. Findings suggest
students were more successful at classifying pre-selected terms under given superordinate categories than they were at fully
identifying relevant concept sets and articulating three different relationship types between terms. No significant differences
were noted in the mapping performance of students at different reading levels. About two-third of students indicated they
enjoyed concept mapping and would prefer to both read and map rather than just read without mapping. Students also expressed
a strong preference for mapping in pairs or small groups compared to mapping alone. Multiple recommendations are provided
for improving the relational thinking of students tasked with concept mapping expository science texts, including bridging
to more open-ended maps, embedding mapping in longer-term inquiry projects, and leveraging collaborative and tool-based scaffolds. 相似文献
9.
思维导图为小学生建造了思考框架,小学生通过这一方式对所学的知识进行表达和理解。因其与英语之间有共通之处,故可以在小学英语词汇教学中引入思维导图,以便小学生在学习期间对英语知识网络进行完整构建,使其具有更高的学习能力和效率。 相似文献
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12.
Gwo-Jen Hwang Shao-Chen Chang 《British journal of educational technology : journal of the Council for Educational Technology》2021,52(1):337-357
With the advancements in technology networks, mobile learning has been extensively applied in teaching contexts, enabling closer interaction between students and authentic environments. Previous studies have indicated that, when learning in real-world contexts, students need to interact with real learning targets and peers as well as the digital learning content; thus, effective learning strategies or tools are generally required for helping them organize knowledge and for promoting peer interactions. As a result, the present study developed a bi-directional peer-assessment-based concept mapping system, which not only engages students in assessing peers’ concept maps, but also encourages them to evaluate or respond to peers’ ratings and comments. To explore the effectiveness of this learning system, the study conducted an experiment in elementary science classes. A total of 101 fifth graders from four classes were recruited to participate in the study. Two classes were assigned to the experimental group and two to the control group. The experimental group adopted the bi-directional peer-assessment approach, while the control group adopted the conventional peer assessment approach for concept mapping. The results reveal that the bi-directional peer-assessment-based concept mapping system can not only increase students’ learning achievement and the completeness of their concept mapping, but can also enhance their critical thinking tendency and the feedback quality of their peer assessment. 相似文献
13.
James Rye Rick Landenberger Timothy A. Warner 《Journal of Science Education and Technology》2013,22(3):379-392
The concept map tool set forth by Novak and colleagues is underutilized in education. A meta-analysis has encouraged teachers to make extensive use of concept mapping, and researchers have advocated computer-based concept mapping applications that exploit hyperlink technology. Through an NSF sponsored geosciences education grant, middle and secondary science teachers participated in professional development to apply computer-based concept mapping in project-based learning (PBL) units that investigated local watersheds. Participants attended a summer institute, engaged in a summer through spring online learning academy, and presented PBL units at a subsequent fall science teachers’ convention. The majority of 17 teachers who attended the summer institute had previously used the concept mapping strategy with students and rated it highly. Of the 12 teachers who continued beyond summer, applications of concept mapping ranged from collaborative planning of PBL projects to building students’ vocabulary to students producing maps related to the PBL driving question. Barriers to the adoption and use of concept mapping included technology access at the schools, lack of time for teachers to advance their technology skills, lack of student motivation to choose to learn, and student difficulty with linking terms. In addition to mitigating the aforementioned barriers, projects targeting teachers’ use of technology tools may enhance adoption by recruiting teachers as partners from schools as well as a small number that already are proficient in the targeted technology and emphasizing the utility of the concept map as a planning tool. 相似文献
14.
The purpose of this research study was to (a) describe how concept mapping can be used as an integral instructional strategy for teaching a college course on evolution, (b) evaluate the utility of incorporating concept mapping in a college course on evolution, (c) determine whether students' concept maps reveal “critical junctures” in learning as the course unfolds, and (d) assess the impact of concept mapping on students' study practices and on students' understanding of course content. Key findings include: (a) Critical junctures in learning evolution can be identified by monitoring the degree of concordance of superordinate concepts appearing on the class set of concept maps submitted after each of the course lectures; (b) students who made concept maps reported spending an average of 37% more study time on this college biology course than on their previous biology courses; and (c) the use of “seed concepts,” “micromapping,” a standard concept map format, and a standard concept map checklist made the strategy feasible for the instructor to implement and for the student to adopt. A concept map performance index formulas was also developed for this research study in order to assess students' overall mapping performance. 相似文献
15.
Jean C. Essila Farouq Alhourani Jaideep Motwani 《Decision Sciences Journal of Innovative Education》2021,19(1):15-39
Teaching quantitative subjects such as operations management (OM) can be quite challenging. In this article, we present a novel approach that uses simplified concept maps for teaching OM. This application of concept maps was investigated to determine if it helps students to answer questions and to solve OM problems more effectively. Our study used a controlled experimental design with students divided into two groups, one taught using concept maps and another group taught using traditional techniques. Student learning was measured with pre‐ and posttests consisting of both multiple‐choice and constructed‐response items. The performance of the two groups was compared using an independent samples t‐test and analysis of covariance to control for the covariate “pretest.” The results indicate that use of simplified concept mapping significantly improved student learning of OM course material. We therefore recommend its adoption as an active‐learning pedagogical technique that can lead to positive change in the OM classroom. 相似文献
16.
Concept mapping was developed as a method of displaying and organizing hierarchical knowledge structures. Using the new, multidimensional presentation software Prezi, we have developed a new teaching technique designed to engage higher-level skills in the cognitive domain. This tool, synthesis mapping, is a natural evolution of concept mapping, which utilizes embedding to layer information within concepts. Prezi’s zooming user interface lets the author of the presentation use both depth as well as distance to show connections between data, ideas, and concepts. Students in the class Biology of Cancer created synthesis maps to illustrate their knowledge of tumorigenesis. Students used multiple organizational schemes to build their maps. We present an analysis of student work, placing special emphasis on organization within student maps and how the organization of knowledge structures in student maps can reveal strengths and weaknesses in student understanding or instruction. We also provide a discussion of best practices for instructors who would like to implement synthesis mapping in their classrooms. 相似文献
17.
Spyridon D. Masouros 《European Journal of Engineering Education》2010,35(1):59-78
This paper focuses on the preliminary design of a multifaceted computer-based mathematics resource for undergraduate and pre-entry engineering students. Online maths resources, while attractive in their flexibility of delivery, have seen variable interest from students and teachers alike. Through student surveys and wide consultations, guidelines have been developed for effectively collating and integrating learning, support, application and diagnostic tools to produce an Engineer's Mathematics Gateway. Specific recommendations include: the development of a shared database of engineering discipline-specific problems and examples; the identification of, and resource development for, troublesome mathematics topics which encompass ideas of threshold concepts and mastery components; the use of motivational and promotional material to raise student interest in learning mathematics in an engineering context; the use of general and lecture-specific concept maps and matrices to identify the needs and relevance of mathematics to engineering topics; and further exploration of the facilitation of peer-based learning through online resources. 相似文献
18.
Doris B. Chin Ilsa M. Dohmen Britte H. Cheng Marily A. Oppezzo Catherine C. Chase Daniel L. Schwartz 《Educational technology research and development : ETR & D》2010,58(6):649-669
One valuable goal of instructional technologies in K-12 education is to prepare students for future learning. Two classroom
studies examined whether Teachable Agents (TA) achieves this goal. TA is an instructional technology that draws on the social
metaphor of teaching a computer agent to help students learn. Students teach their agent by creating concept maps. Artificial
intelligence enables TA to use the concept maps to answer questions, thereby providing interactivity, a model of thinking,
and feedback. Elementary schoolchildren learning science with TA exhibited “added-value” learning that did not adversely affect
the “basic-value” they gained from their regular curriculum, despite trade-offs in instructional time. Moreover, TA prepared
students to learn new science content from their regular lessons, even when they were no longer using the software. 相似文献
19.
Keith S. Taber 《Cultural Studies of Science Education》2017,12(1):81-91
Lisa Borgerding’s work highlights how students can understand evolution without necessarily committing to it, and how learners may come to see it as one available way of thinking amongst others. This is presented as something that should be considered a successful outcome when teaching about material that many students may find incompatible with their personal worldviews. These findings derive from work exploring a cause célèbre of the science education community—the teaching of natural selection in cultural contexts where learners feel they have strong reasons for rejecting evolutionary ideas. Accepting that students may understand but not commit to scientific ideas that are (from some cultural perspectives) controversial may easily be considered as a form of compromise position when teaching canonical science prescribed in curriculum but resisted by learners. Yet if we take scholarship on the nature of science seriously, and wish to reflect the nature of scientific knowledge in science teaching, then the aim of science education should always be to facilitate understanding of, yet to avoid belief in, the ideas taught in science lessons. The philosophy of science suggests that scientific knowledge needs to be understood as theoretical in nature, as conjectural and provisional; and the history of science warns of the risks of strongly committing to any particular conceptualisation as a final account of some feature of nature. Research into student thinking and learning in science suggests that learning science is often a matter of coming to understand a new viable way of thinking about a topic to complement established ways of thinking. Science teaching should then seek to have students appreciate scientific ideas as viable ways of making sense of the currently available empirical evidence, but should not be about persuading students of the truth of any particular scientific account. 相似文献
20.
The purpose of this research is threefold: (1) to identify the difficulties that Grade 10 students in a Lebanese school have that hinder their conceptual understanding at the micro–macro–symbolic interface in chemistry, (2) to investigate the effect of a macro–micro–symbolic teaching approach on students’ relational understanding of chemical reactions, and (3) to characterize students’ conceptual profiles regarding their understanding of chemical reactions in terms of macro, micro, symbolic levels and the relations among them, at the end of the teaching sequence. Forty six 10th graders from two sections participated in the study. A student-centered approach was followed in both sections based on constructivist pedagogy. Hence the teacher played the role of a facilitator who guided students in a meaning making inductive learning process, through questioning, monitoring, validating, and clarifying ideas. Instruction in the experimental group was characterized by macro–micro–symbolic teaching that focuses on the interplay between the levels, integrates various representations, and engages students in an epistemic discourse about the nature of knowing in chemistry. Data sources for the study included a pre-test and two post-intervention tasks: a post-test and a concept map task, in addition to interviews with selected students from both sections. Findings indicated that macro–micro–symbolic teaching enhanced students’ conceptual understanding and relational learning of chemical reactions. Besides, four assertions related to students’ conceptual and epistemological thinking in response to the different teaching approaches are presented. Implications for instruction and for teacher education programs, as well as recommendations for further research, are discussed in light of these findings. 相似文献