239,288 research outputs found
Nonâhierarchical learning: sharing knowledge, power and outcomes
Arguing that every student has the capacity to succeed and that every student must be provided with the opportunity to reach their full potential, this article introduces a new pedagogic approach that draws on a wide range of influences. Linking theoretical practices from sociology, pedagogy, social and educational psychology, and cultural studies, the approach posits that teaching and learning should be conducted in nonâhierarchical classrooms where all members are equal and working towards shared objectives. A theoretical frame is outlined and the factors that helped shape it are reflected on. A conceptual framework which covers the goals of instruction, instructional materials, classroom management, instructional methods, and assessment is also presented. It is hoped that educators will consider the concepts included in this article and, if possible, incorporate them into their teaching practices
Characterizing lab instructors' self-reported learning goals to inform development of an experimental modeling skills assessment
The ability to develop, use, and refine models of experimental systems is a
nationally recognized learning outcome for undergraduate physics lab courses.
However, no assessments of students' model-based reasoning exist for
upper-division labs. This study is the first step toward development of
modeling assessments for optics and electronics labs. In order to identify test
objectives that are likely relevant across many institutional contexts, we
interviewed 35 lab instructors about the ways they incorporate modeling in
their course learning goals and activities. The study design was informed by
the Modeling Framework for Experimental Physics. This framework conceptualizes
modeling as consisting of multiple subtasks: making measurements, constructing
system models, comparing data to predictions, proposing causes for
discrepancies, and enacting revisions to models or apparatus. We found that
each modeling subtask was identified by multiple instructors as an important
learning outcome for their course. Based on these results, we argue that test
objectives should include probing students' competence with most modeling
subtasks, and test items should be designed to elicit students' justifications
for choosing particular modeling pathways. In addition to discussing these and
other implications for assessment, we also identify future areas of research
related to the role of modeling in optics and electronics labs.Comment: 24 pages, 2 figures, 5 tables; submitted to Phys. Rev. PE
Civil Society Legitimacy and Accountability: Issues and Challenges
University education rarely focuses its attention and imagination on teaching students how to turn a vision into reality; how to design, develop, and lead social change organizations. The author co-created the Social Entrepreneurship Collaboratory (SE Lab) at Stanford University and then Harvard University as a model educational program designed to achieve this goal. The SE Lab is a Silicon Valley influenced incubator where student teams create and develop innovative pilot projects for US and international social sector initiatives. The lab combines academic theory, frameworks, and traditional research with intensive field work, action research, peer support and learning, and participation of domain experts and social entrepreneurship practitioners. It also provides students an opportunity to collaborate on teams to develop business plans for their initiatives and to compete for awards and recognition in the marketplace of ideas. Students in the SE Lab have created innovative organizations serving many different social causes, including fighting AIDS in Africa, promoting literacy in Mexico, combating the conditions for terrorism using micro-finance in the Palestinian territories, and confronting gender inequality using social venture capital to empower women in Afghanistan
Hubungan di antara amalan pengurusan kualiti menyeluruh (TQM) dan inovasi produk di kalangan syarikat pemprosesan makanan industri kecil dan sederhana
Pada era globalisasi ini, keperluan pelanggan menjadi semakin sukar untuk dipenuhi telah mewujudkan persaingan sengit di kalangan organisasi menyebabkan sesuatu organisasi sangat sukar untuk bertahan. Oleh itu, pengurusan kualiti menyeluruh (TQM) menjadi falsafah pengurusan dan amalan syarikat yang membantu dalam menguruskan organisasi untuk meningkatkan keberkesanan dan prestasi keseluruhan ke arah mencapai status bertaraf dunia sejak dua dekad yang lalu (Yusof & Aspinwall, 2000). Di Malaysia, banyak organisasi mula menganggap kualiti sebagai komponen penting dalam rancangan perniagaan mereka untuk menghadapi cabaran persekitaran global yang baru. Sebilangan besar organisasi memberi tumpuan kepada Pengurusan Kualiti Menyeluruh (TQM) berbanding amalan kualiti lain (Nusrah, Ramayah & Norizan, 2006). Oleh kerana inovasi telah dikenali secara meluas sekarang, organisasi perlu menggabungkan kedua-dua aspek inovasi dan kualiti untuk mencapai prestasi yang tinggi. Oleh itu, hubungan antara TQM dan inovasi telah menjadi tumpuan dalam literatur amalan pengurusan (Feng et al., 2006)
Designing software to maximize learning1
This paper starts from the assumption that any evaluation of educational software should focus on whether or not, and the extent to which, it maximizes learning. It is particularly concerned with the impact of software on the quality of learning. The paper reviews key texts in the literature on learning, including some which relate directly to software development, and suggests ways in which a range of learning theories can inform the process of software design. The paper sets out to make a contribution to both the design and the evaluation of educational software
A tool-mediated cognitive apprenticeship approach for a computer engineering course
Teaching database engineers involves a variety of learning activities. A strong focus is on practical problems that go beyond the acquisition of knowledge. Skills and experience are equally important. We propose a virtual apprenticeship model for the knowledge- and skillsoriented Web-based education of database students. We adapt the classical cognitive apprenticeship theory to the Web context utilising scaffolding and activity theory. The choice of educational media and the forms of student interaction with the media are central success criteria
The Problem Based Learning (PBL)-Based Entrepreneurship Learning Model Development to Improve the Life Skills of the Teacher Training Students in Private Universities throughout Solo Raya
Purpose â This research aims at providing a PBL-based Entrepreneurship learning model to
improve the student life skills in Private Faculties of Teacher Training and Educationin Solo
Raya.
Method â This research was a âresearch and developmentâ. The research and development
model consists of three steps: preliminary study, model development, and model testing. The
research study stage employed a qualitative research; techniques of collecting data used were
observation, interview, and content analysis and archive, while the data validation was done
using data (source), method and theory triangulations, and informant review; data analysis
was done using an interactive model of analysis.
Findings â The implementation of life skills education in FKIP of UNISRI was not based on
specific curriculum yet; the curriculum is integrated into all courses existing in the Study
Program. The life skill content of each course is different but proportional and consistent with
the characteristics of the course. Life skill education was given to the students in terms of the
thinking and working skill, knowledge, and attitude the students to prepare themselves as
independent members of society.
Significance â The Problem Based Learning (PBL)-Based Entrepreneurship learning model
development could improve the life skills of the private Teacher Training and Education
Facultyâs Students throughout Solo Raya
Geosciences for Elementary Educators: A Course Assessment
Geosciences for Elementary Educators engages future elementary teachers in a hands-on investigation of topics aligned with the third and fifth grade Earth/Space Science and Scientific Inquiry benchmarks of the Oregon Content Standards. The course was designed to develop the content background of elementary teachers within the framework of the science described in the content standards, to provide an opportunity for future teachers to explore the content area in relation to what takes place in the classrooms of elementary schools, and to initiate a community of learners focused on teaching science to elementary students. The course focused on four themes: the classroom teacher as an activity and curriculum developer using diverse resources to keep the content current and alive; the classroom teacher as educator dealing with the diverse backgrounds of students in a developmentally appropriate manner; the classroom teacher as reïŹective practitioner exploring the links among pedagogy, content, and student learning; and, the classroom teacher as citizen staying current with emerging policy issues and debates that impact education. In a course where process is extremely important, participants are assessed on what they can do with content and process knowledge through preparing lesson plans, presenting lessons in a simulated classroom environment, and developing a portfolio and journal. Lesson plans demonstrate participant understanding of inquiry, using models, deductive and inductive approaches, links between communication skills and content knowledge, and effective use of technology, including the Internet. For each topic, the mixture of demonstration, experimentation, inquiry, and lecture models are explored through investigation, discovery, and analysis
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