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Learning Cycle (learning + cycle)

Distribution by Scientific Domains
Education66%

Selected Abstracts

Students' science perceptions and enrollment decisions in differing learning cycle classrooms

JOURNAL OF RESEARCH IN SCIENCE TEACHING, Issue 9 2001
Ann M.L. Cavallo
This investigation examined 10th-grade biology students' decisions to enroll in elective science courses, and explored certain attitudinal perceptions of students that may be related to such decisions. The student science perceptions were focused on student and classroom attitudes in the context of differing learning cycle classrooms (high paradigmatic/high inquiry, and low paradigmatic/low inquiry). The study also examined possible differences in enrollment decisions/intentions and attitudinal perceptions among males and females in these course contexts. The specific purposes were to: (a) explore possible differences in students' decisions, and in male and female students' decisions to enroll in elective science courses in high versus low paradigmatic learning cycle classrooms; (b) describe patterns and examine possible differences in male and female students' attitudinal perceptions of science in the two course contexts; (c) investigate possible differences in students' science perceptions according to their decisions to enroll in elective science courses, participation in high versus low paradigmatic learning cycle classrooms, and the interaction between these two variables; and (d) examine students' explanations of their decisions to enroll or not enroll in elective science courses. Questionnaire and observation data were collected from 119 students in the classrooms of six learning cycle biology teachers. Results indicated that in classrooms where teachers most closely adhered to the ideal learning cycle, students had more positive attitudes than those in classrooms where teachers deviated from the ideal model. Significantly more females in high paradigmatic learning cycle classrooms planned to continue taking science course work compared with females in low paradigmatic learning cycle classrooms. Male students in low paradigmatic learning cycle classrooms had more negative perceptions of science compared with males in high paradigmatic classrooms, and in some cases, with all female students. It appears that using the model as it was originally designed may lead to more positive attitudes and persistence in science among students. Implications include the need for science educators to help teachers gain more thorough understanding of the learning cycle and its theoretical underpinnings so they may better implement this procedure in classroom teaching. © 2001 John Wiley & Sons, Inc. J Res Sci Teach 38: 1029,1062, 2001 [source]

Science, engineering, and statistics

APPLIED STOCHASTIC MODELS IN BUSINESS AND INDUSTRY, Issue 5-6 2006
T. P. Davis
Abstract Symmetry and parsimony, together with unification through synthesis are important principles that govern the character of physical law. We show how these principles can be applied to engineering to develop an approach to reliability, and engineering in general, that centres on the identification, detection, and avoidance of failure modes through design. A definition of reliability, not presented in terms of probability, but rather based on physics, geometry, and the properties of materials, will be emphasized to support this approach. We will also show how the nature of the inductive,deductive learning cycle provides the framework for statistical science to be embedded into engineering practice, with particular regard to improving reliability through failure mode avoidance. Copyright © 2006 John Wiley & Sons, Ltd. [source]

Evaluating online CPD using educational criteria derived from the experiential learning cycle

BRITISH JOURNAL OF EDUCATIONAL TECHNOLOGY, Issue 4 2002
Andrew Friedman
A set of educational evaluation criteria for online continuing professional development (CPD) courses is developed using Kolb's (1984) experiential learning cycle theory. These criteria are used to evaluate five courses provided by online CPD websites. It was found that these online CPD courses neglect parts of the learning cycle. Suggestions for improvements in these areas are given. [source]

A model of personal professional development in the systematic training of clinical psychologists

CLINICAL PSYCHOLOGY AND PSYCHOTHERAPY (AN INTERNATIONAL JOURNAL OF THEORY & PRACTICE), Issue 4 2007
Alia I. Sheikh
Staff development has been identified as a key way to improve the delivery of psychological therapies, particularly through enhancing professionals' capacity for reflective practice. Traditionally, the ,reflective practitioner' model has guided how we train professionals to deliver therapies, but this model is vague and needs refinement. We therefore outlined a more coherent model, by integrating the ideas and methods of these and other educationalists into our working definition of the ,Personal Professional Development' (PPD). We proposed that reflection can be made explicit within a circumplex model that is based upon an experiential learning cycle. This allowed ,reflective practice' to be developed systematically and analyzed empirically. We detailed how PPD is addressed within one clinical psychology training program, and provided some initial, promising evaluation data to support the approach. The need for further development and evaluation of our model and its associated methods is discussed as an appropriately reflexive next phase.,Copyright © 2007 John Wiley & Sons, Ltd. [source]