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An interdisciplinary science course has been implemented at a university with the intention of providing students the opportunity to develop a range of key skills in relation to: real-world connections of science, problem-solving, information and communications technology use and team while linking subject knowledge in each of the science disciplines. One of the problems used in this interdisciplinary course has been selected to evaluate if it affords students the opportunity to explicitly display problem-solving processes. While the benefits of implementing problem-based learning have been well reported, far less research has been devoted to methods of assessing student problem-solving solutions. A problem-solving theoretical framework was used as a tool to assess student written solutions to indicate if problem-solving processes were present. In two academic years, student problem-solving processes were satisfactory for exploring and understanding, representing and formulating, and planning and executing, indicating that student collaboration on problems is a good initiator of developing these processes. In both academic years, students displayed poor monitoring and reflecting (MR) processes at the intermediate level. A key impact of evaluating student work in this way is that it facilitated meaningful feedback about the students’ problem-solving process rather than solely assessing the correctness of problem solutions. 相似文献
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Importance of online learning has become more critical with the advent of a global pandemic. Effective online learning requires design characteristics that support learning that crosses traditional disciplinary boundaries. The example of educational delivery of food safety encompasses multiple disciplines to prepare students for real‐world situations, practical problem‐solving, and to be “future proof” as food safety becomes more quantitative. This study explicates how six simulation‐based learning modules were evaluated, two each in microbiological growth/inactivation, food process dynamics with microbiological growth/inactivation, and risk assessment. Each group of three modules was targeted to the students in undergraduate food science and engineering programs. Altogether, the 6 modules were implemented and assessed in 17 courses at 14 universities over 5 years. The effectiveness of the module‐based approach was sustained across subject matter (microbiology, process, and risk), disciplines (food science and engineering), and their implementations. Students’ and instructors’ survey responses indicated the modules’ value in real‐world and practical problem‐solving ability. Instructors were also motivated to implement the modules as they saw the potential for improvement in student understanding, how modules reinforced course learning outcomes, the quality of support provided with modules, and their ability to replace existing course assessment without adding work for the instructor or the students. This self‐learning, module‐based approach to introduce interdisciplinary content employed has proven successful. The template for making these modules is described in sufficient detail so future modules can be built for a wide variety of subject matter beyond food safety. 相似文献
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Leah D. Pride 《理论付诸实践》2014,53(1):41-47
All science, technology, engineering, and mathematics (STEM) educators working in urban public school systems are expected to provide opportunities for students to develop foundational scientific literacy skills in mathematics and science learning. However, the demands on STEM educators teaching the “gifted” or “high-performing” students attending STEM-focused schools are much higher. Educators are expected to motivate, nurture, and propel the intrinsic or earned abilities these students possess. This article shares teaching- and learning-informed stories of a STEM educator (the author) and her students attending New York City Specialized High School for the Sciences. The goal is to document the complexities surrounding the notion of a gifted mindset: first from the author's own experiences as a female scientist and person of color and second from the narratives of the students. Teaching and learning within a prestigious public school for the sciences comes with many narratives of challenge and triumph. The learning stories of empowered students reveal that they desire opportunities in the STEM classroom for meaningful learning. Students who want to take ownership in their learning will find a way to appropriate meaningful learning, even in restrictive classrooms. Learning stories, as a theoretical framework and narrative assessment tool, are particularly useful in contextualizing the multi-dimensional aspects of being a STEM professional in education. 相似文献
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Alexandra Okada Raquel Pasternak Glitz Kowalski Claudio Kirner Patrícia Lupion Torres 《Interactive Learning Environments》2019,27(3):324-335
Responsible Research and Innovation (RRI) is a contemporary approach to promote science with and for society for aligning scientific innovations with societal needs. Literature about education for RRI is limited because it is not a widespread practice at the moment. To explore this gap, this study examines teachers’ views about a novel inquiry game with Augmented Reality to foster inquiry skills for RRI. This game about Genetic-Modified food was used by 18 educators from Secondary and Higher Education who engaged 390 students to form opinions about risks and benefits of GM cereal. The thematic analysis of qualitative data: semi-structured questionnaires, teaching reports and focus groups, revealed motivations and practices that influence teachers’ adoption of OER created with new technologies. Findings revealed that the 3-phase-model approach used in the game engaged students to “CARE” about global issues, “KNOW” science concepts and “DO” actions through an active open schooling network. The key drivers for educators’ adoption of AR inquiry games are to make learning more meaningful and engaging through students-centred approaches and topical resources for them to develop scientific knowledge and skills. However, the key requirements for that are easy-to-use technologies and pedagogical strategies for identifying learner’s achievements and difficulties. 相似文献
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Key issues for research in self‐directed learning 总被引:1,自引:1,他引:0
Philip C. Candy 《Studies in Continuing Education》2013,35(2):104-124
This paper consists of two parts. The first part gives an overview of two major paradigms which have influenced research in education; the positivist/empiricist and the interpretive. It is argued that research into self‐direction has been dominated by the positivist/empiricist paradigm and that, because of a fundamental incompatibility between the assumptions underlying positivism and those underlying ‘self‐direction,’ research into self‐direction has been ‘blocked.’ It is suggested that the adoption of an interpretive paradigm promises to reinvigorate and redirect research into self‐direction in learning. The second part of the paper represents an attempt to develop a research agenda into self‐direction from an interpretive perspective; that is, one which takes account of the learner's subjective construing of the learning situation. This subjective construing includes pur elements: (1) the learner's view of learning in general; (2) the learner's view of the specific learning endeavour being researched; (3) the learner's view of assistance or direction received; and (4) the learner's view of autonomous leaming and the development of personal autonomy. It is also suggested that any adequate research into ‘self‐direction’ should ideally take account of the perspective of the facilitator or other person offering help and assistance, since learning situations depend largely on the quality of the relationship established between the learner and the ‘helper’. 相似文献
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Leo Friedman 《College Teaching》2013,61(1):13-14
Problem posing is a higher-order, active-learning task that is important for students to develop. This article describes a series of interdisciplinary learning activities designed to help students strengthen their problem-posing skills, which requires that students become more responsible for their learning and that faculty move to a facilitator role. Developing students’ problem-posing skills and allowing them to grapple with course content can lead to deeper levels of understanding and improved critical thinking. In turn, students are more likely to be able to move their newfound knowledge beyond the classroom. 相似文献
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The pervasiveness of Computer Science (CS) in today’s digital society and the extensive use of computational methods in other sciences call for its introduction in the school curriculum. Hence, Computer Science Education is becoming more and more relevant. In CS K-12 education, computational thinking (CT) is one of the abused buzzwords: different stakeholders (media, educators, politicians) give it different meanings, some more oriented to CS, others more linked to its interdisciplinary value. The expression was introduced by two leading researchers, Jeannette Wing (in 2006) and Seymour Papert (much early, in 1980), each of them stressing different aspects of a common theme. This paper will use a historical approach to review, discuss, and put in context these first two educational and epistemological approaches to CT. We will relate them to today’s context and evaluate what aspects are still relevant for CS K-12 education. Of the two, particular interest is devoted to “Papert’s CT,” which is the lesser-known and the lesser-studied. We will conclude that “Wing’s CT” and “Papert’s CT,” when correctly understood, are both relevant to today’s computer science education. From Wing, we should retain computer science’s centrality, CT being the (scientific and cultural) substratum of the technical competencies. Under this interpretation, CT is a lens and a set of categories for understanding the algorithmic fabric of today’s world. From Papert, we should retain the constructionist idea that only a social and affective involvement of students into the technical content will make programming an interdisciplinary tool for learning (also) other disciplines. We will also discuss the often quoted (and often unverified) claim that CT automatically “transfers” to other broad 21st century skills. Our analysis will be relevant for educators and scholars to recognize and avoid misconceptions and build on the two core roots of CT.
相似文献9.
College science education needs to foster students' habit of mind beyond disciplinary constraints. However, little research has been devoted to assessing students' interdisciplinary understanding. To address this problem, we formed a team of experts from different disciplines to develop interdisciplinary assessments that target introductory college-level science. We started our project by focusing on osmosis, a topic that involves knowledge from multiple science disciplines. We developed an instrument focusing on this topic and administered it to 3 classes of college students. A Rasch partial credit analysis showed that the items demonstrated satisfactory psychometric properties. The findings also revealed the differences between student's disciplinary and interdisciplinary understanding. The educational implications of the study were discussed. 相似文献
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Ömer Delialioğlu 《Interactive Learning Environments》2016,24(8):1957-1966
The effect of students’ subject discipline on their preferences toward m-learning applications was investigated by using a mixed-method research design. A questionnaire on students’ preferences of m-learning application features was used to collect data from 181 undergraduate students. One-way analysis of variance found a significant difference among perceptions of students from different subject disciplines related to the “collaboration” and “learning” features. Follow-up interviews were carried out to further investigate students’ perceptions. Content analysis revealed that “availability” and “ease of use” were the most preferred features, and “collaboration” and “entertaining” were the least preferred ones. Interview results related to universities’ readiness for m-learning were categorized into (i) universities’ infrastructures, (ii) instructors’ skills and (iii) students’ skills for m-learning. Students indicated their universities’ infrastructures as “moderately ready” for m-learning. They ranked their instructors’ skills as “low”. However, students assessed their own skills as “moderate” for utilizing m-learning in their respective universities. 相似文献
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Undergraduate Research (UR) provides deeper experiential learning opportunities for students while increasing their self-efficacy, academic success and motivation to pursue graduate studies. Many real-world problems require an integrated solution and collaboration across different disciplines; therefore, it is important that students develop skills to work across disciplines on challenging research problems. As types and complexity of UR increase, Interdisciplinary Undergraduate Research (IDUR) has become more prevalent, but little is known about it. We define IDUR as “student-faculty collaboration to examine, increase, and share new knowledge or works relevant to research questions the investigation of which necessitates an interdisciplinary approach”. From the faculty perspective, and based on the results of a national sample of higher learning institutions in the U.S., we outline the enablers of and barriers to IDUR and provide quantitative and qualitative insights. Survey results show that, irrespective of the size of the institution at which they work, faculty members value mentoring students conducting IDUR although it brings with it some challenges. Our findings may help institutions better facilitate IDUR projects and inform faculty development opportunities that deepen student learning and retention via enhanced curricula in which IDUR is embedded. 相似文献
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Susan Butler 《Research in Science Education》1999,29(1):127-140
This autobiographical article describes action research, utilising a hermeneutic dialectic methodology, on the efficacy of problem-based learning. In the emergent research design, the research focus for the teacher evolved as: “Can I, as an instructor, teach science in such a way that: the use of science in real life is emphasised; an interdisciplinary approach is utilised; assessment is an integral part of instruction; and learning is student-driven, not teacher directed?” To answer this research question, the article focuses on the emergence of students' critical thinking skills, the relevance of science concepts taught, the interdisciplinary nature of the problems addressed, the use of alternative methods of assessment, and the changing roles of the teacher and the students. One significant finding reported in the article is the development of student autonomy, as the problem-based learning format allowed students freedom to pursure diverse research agendas and to accept increasing responsibility for their own learning. 相似文献
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A challenge facing many schools, especially those in urban settings that serve culturally and linguistically diverse populations, is a disconnection between schools and students' home communities, which can have both cognitive and affective implications for students. In this article we explore a form of “connected science,” in which real‐world problems and school‐community partnerships are used as contextual scaffolds for bridging students' community‐based knowledge and school‐based knowledge, as a way to provide all students opportunities for meaningful and intellectually challenging science learning. The potential of these scaffolds for connected science is examined through a case study in which a team of fifth‐grade teachers used the student‐identified problem of pollution along a nearby river as an interdisciplinary anchor for teaching science, math, language arts, and civics. Our analysis makes visible how diverse forms of knowledge were able to support project activities, examines the consequences for student learning, and identifies the features of real‐world problems and school–community partnerships that created these bridging opportunities. © 2001 John Wiley & Sons, Inc. J Res Sci Teach 38: 878–898, 2001 相似文献
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E.J. Pharo A. Davison K. Warr M. Nursey-Bray K. Beswick E. Wapstra 《Teaching in Higher Education》2013,18(5):497-507
A teacher network was formed at an Australian university in order to better promote interdisciplinary student learning on the complex social-environmental problem of climate change. Rather than leaving it to students to piece together disciplinary responses, eight teaching academics collaborated on the task of exposing students to different types of knowledge in a way that was more than the summing of disciplinary parts. With a part-time network facilitator providing cohesion, network members were able to teach into each other's classes, and share material and student activities across a range of units that included business, zoology, marine science, geography and education. Participants reported that the most positive aspects of the project were the collegiality and support for teaching innovation provided by peers. However, participants also reported being time-poor and overworked. Maintaining the collaboration beyond the initial one year project proved difficult because without funding for the network facilitator, participants were unable to dedicate the time required to meet and collaborate on shared activities. In order to strengthen teacher collaboration in a university whose administrative structures are predominantly discipline-based, there is need for recognition of the benefits of interdisciplinary learning to be matched by recognition of the need for financial and other resources to support collaborative teaching initiatives. 相似文献
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From its inception, the field of Mind, Brain, and Education (MBE) has been conceived as an interdisciplinary science, and with good reason: The phenomena the field aims to understand often arise from interactions among multiple factors, span levels of analysis, and are context dependent. In this article, we argue that to reach its potential as an interdisciplinary science—and in order to explain such complex phenomena—MBE must be fundamentally organized around meaningful, discipline‐spanning questions, and the questions must determine tools and research methods (not the other way around). Using examples from three central questions in MBE—“who,”“when,” and “how”—we highlight the limits of single disciplines, and the value of a question‐driven interdisciplinary approach in MBE, with respect to questions that can be asked, the perspectives that can be considered, and the array of methods, tools, and models that can be made available. We believe that the future is bright for MBE, and that the field has a unique opportunity to provide meaningful answers to some of the most difficult questions in education today. However, realizing this potential depends on, as a first step, allowing the questions themselves to drive the field's work moving forward. 相似文献
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Success skills have been ranked as the most important core competency for new food science professionals to have by food science graduates and their employers. It is imperative that food science instructors promote active learning in food science courses through experiential learning activities to enhance student success skills such as oral and written communication, critical thinking, problem solving, and team work. The aim of this study was to incorporate “real‐world” experiential learning into a food product development course. Undergraduate students enrolled in a food product development course worked on a semester‐long product development case study developed by the Instructor of the course and the Manager from ACH Food Companies, Inc. The case study was presented to students in the form of a product development competition. Students were placed into groups and given the task to develop a cake mix with specified parameters. At the end of the semester, student groups participated in a case study competition to showcase their product concepts. Each student group gave a PowerPoint presentation and was evaluated using selected criteria. Students rated the course overall as being very good. Students perceived the case study to be beneficial and informative regarding employer (ACH's) expectations. Students recommended that the Instructor minimize restrictions/specifications for product concepts and increase the quantity of course/laboratory meetings per week. This approach will continue to be used and further evaluated as an approach to incorporate active learning and provide food science undergraduates with a sense of employer expectations. 相似文献
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Reflections as near‐peer facilitators of an inquiry project for undergraduate anatomy: Successes and challenges from a term of trial‐and‐error 
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下载免费PDF全文 Lauren M. Anstey Alison Michels Julianna Szymus Wyanne Law Man‐Hymn Edwin Ho Fei Qu Ralph T.T. Yeung Natalie Chow 《Anatomical sciences education》2014,7(1):64-70
Near‐peer facilitators (senior students serving as facilitators to their more junior peers) bring a unique student‐based perspective to teaching. With fewer years of teaching experience however, students who become involved in a facilitator role typically develop related skills quickly through a process of trial‐and‐error within the classroom. The aim of this paper is to report on the authors' own experiences and reflections as student near‐peer facilitators for an inquiry‐based project in an undergraduate anatomy course. Three areas of the facilitator experience are explored: (1) offering adequate guidance as facilitators of inquiry, (2) motivating students to engage in the inquiry process, and (3) fostering creativity in learning. A practical framework for providing guidance to students is discussed which offers facilitators a scaffold for asking questions and assisting students through the inquiry process. Considerations for stimulating intrinsic motivations toward inquiry learning are made, paying attention to ways in which facilitators might influence feelings of motivation towards learning. Also, the role of creativity in inquiry learning is explored by highlighting the actions facilitators can take to foster a creative learning environment. Finally, recommendations are made for the development of formalized training programs that aid near‐peer facilitators in the acquisition of facilitation skills before entering into a process of trial‐and‐error within the classroom. Anat Sci Educ. 7: 64–70. © 2013 American Association of Anatomists. 相似文献
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Margaret Perrow 《College Teaching》2017,65(3):97-105
There is currently strong and widespread support among university administrators for blended learning at the college level, or courses that incorporate some degree of online instruction. As instructors are called on to incorporate online and face-to-face elements into their instruction, they face the critical question of how to intentionally connect the two modalities in ways that strengthen learning. This article first outlines the historical context of social-constructivism's presence in online instruction, and then presents a rationale for the use of “crossover” discussion protocols that connect online forums and face-to-face discussions. The article argues that by drawing deliberately on the benefits of both online and in-person learning environments, crossover protocols help students make more insightful connections among ideas and push their own—and each others'—thinking in unexpected ways. A set of crossover protocols is then provided, along with considerations for implementing them effectively. These practical strategies for facilitating conversations across the two modalities were developed in the author's undergraduate and graduate level courses in English and education and are adaptable across course levels and disciplines. The article concludes with a discussion of how students experience the learning benefits of crossover protocols. 相似文献
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Amy Akins 《Educational Action Research》2013,21(3):479-498
The purpose of this study was to see how well an elementary teacher intern was able to help her students see both the differences between language arts, science and social studies, and connections among them, using an action research design, including student interviews, observer logs, journal notes, students' ‘connection’ journals, student work, and her record and planning book as data sources. She designed and delivered an interdisciplinary language arts, science and social studies curriculum that focused on electricity. She found that students were finally able to see the interdisciplinary natures of language arts and science, and language arts and social studies, but did not see connections between science and social studies. Implications include making explicit disciplinary instruction, as well as connections between the disciplines. 相似文献