Spelling suggestions: "subject:"inquiry skills"" "subject:"enquiry skills""
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The Impact of Computer Simulation on the Development of the Inquiry Skills of High School Students in PhysicsIbrahim Mustafa, Mohamed 24 February 2011 (has links)
The purpose of the study was to compare the effectiveness of visualization of natural phenomena via computer simulation and manipulations of concrete objects, in a physics laboratory, on the development of students’ inquiry skills in mechanics. A quasi-experimental method that employed the 2 Learning Tools x 2 Time of learning split-plot factorial design was applied in the study. The sample consisted of 54 Grade 11 students from two physics classes of the university preparation section in the Ottawa-Catholic School Board. One class was assigned to interactive computer simulations (treatment) and the other to concrete objects in physics laboratory (control) as learning tools. Both tools were embedded in the general framework of the guided-inquiry cycle approach. The results showed that the interaction effect of the Learning Tools x Time of learning was not statistically significant. However, the results also showed a significant effect on the development of students’ inquiry skills (indicated by the pre- and post-inquiry skills test) regardless of the type of learning tool they had used. The findings suggested that these two strategies are effective in developing students’ inquiry skills in mechanics.
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The Impact of Computer Simulation on the Development of the Inquiry Skills of High School Students in PhysicsIbrahim Mustafa, Mohamed 24 February 2011 (has links)
The purpose of the study was to compare the effectiveness of visualization of natural phenomena via computer simulation and manipulations of concrete objects, in a physics laboratory, on the development of students’ inquiry skills in mechanics. A quasi-experimental method that employed the 2 Learning Tools x 2 Time of learning split-plot factorial design was applied in the study. The sample consisted of 54 Grade 11 students from two physics classes of the university preparation section in the Ottawa-Catholic School Board. One class was assigned to interactive computer simulations (treatment) and the other to concrete objects in physics laboratory (control) as learning tools. Both tools were embedded in the general framework of the guided-inquiry cycle approach. The results showed that the interaction effect of the Learning Tools x Time of learning was not statistically significant. However, the results also showed a significant effect on the development of students’ inquiry skills (indicated by the pre- and post-inquiry skills test) regardless of the type of learning tool they had used. The findings suggested that these two strategies are effective in developing students’ inquiry skills in mechanics.
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The Impact of Computer Simulation on the Development of the Inquiry Skills of High School Students in PhysicsIbrahim Mustafa, Mohamed 24 February 2011 (has links)
The purpose of the study was to compare the effectiveness of visualization of natural phenomena via computer simulation and manipulations of concrete objects, in a physics laboratory, on the development of students’ inquiry skills in mechanics. A quasi-experimental method that employed the 2 Learning Tools x 2 Time of learning split-plot factorial design was applied in the study. The sample consisted of 54 Grade 11 students from two physics classes of the university preparation section in the Ottawa-Catholic School Board. One class was assigned to interactive computer simulations (treatment) and the other to concrete objects in physics laboratory (control) as learning tools. Both tools were embedded in the general framework of the guided-inquiry cycle approach. The results showed that the interaction effect of the Learning Tools x Time of learning was not statistically significant. However, the results also showed a significant effect on the development of students’ inquiry skills (indicated by the pre- and post-inquiry skills test) regardless of the type of learning tool they had used. The findings suggested that these two strategies are effective in developing students’ inquiry skills in mechanics.
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The Impact of Computer Simulation on the Development of the Inquiry Skills of High School Students in PhysicsIbrahim Mustafa, Mohamed January 2011 (has links)
The purpose of the study was to compare the effectiveness of visualization of natural phenomena via computer simulation and manipulations of concrete objects, in a physics laboratory, on the development of students’ inquiry skills in mechanics. A quasi-experimental method that employed the 2 Learning Tools x 2 Time of learning split-plot factorial design was applied in the study. The sample consisted of 54 Grade 11 students from two physics classes of the university preparation section in the Ottawa-Catholic School Board. One class was assigned to interactive computer simulations (treatment) and the other to concrete objects in physics laboratory (control) as learning tools. Both tools were embedded in the general framework of the guided-inquiry cycle approach. The results showed that the interaction effect of the Learning Tools x Time of learning was not statistically significant. However, the results also showed a significant effect on the development of students’ inquiry skills (indicated by the pre- and post-inquiry skills test) regardless of the type of learning tool they had used. The findings suggested that these two strategies are effective in developing students’ inquiry skills in mechanics.
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An Investigation Of Undergraduate StudentsUnal, Cezmi 01 February 2012 (has links) (PDF)
The aim of this study is to investigate undergraduate students&rsquo / scientific inquiry processes in a physics laboratory designed using problem-based learning. Case study, one of the qualitative research methods, was employed for this aim. Sixteen undergraduate students were participated in this study. Participants conducted inquiry activities for five weeks. The data sources were the observations of participants while they were doing inquiry activities and the laboratory work sheets filled by the participants.
A framework suggested by Klahr and Dunbar (1988) in Scientific Discovery as Dual Search model was used to gain better understanding of scientific inquiry process. In this framework, inquiry process consist of three phases / hypothesis formation, designing and conducting experiments, and evidence evaluation. The variations on the participants&rsquo / scientific inquiry processes were analyzed and categorized for each phase of inquiry.
Participants&rsquo / hypothesis formation processes were categorized based on the nature of sources used by the participants and how these sources were used. The emerging categories were labeled as &ldquo / concept-based hypothesis formation&rdquo / , &ldquo / equation-based hypothesis formation&rdquo / , and &ldquo / context-based hypothesis formation&rdquo / . Participants&rsquo / designing and conducting experiment processes were categorized into two types: &ldquo / Systematic manipulations&rdquo / and &ldquo / unsystematic manipulations&rdquo / . &ldquo / Haphazard manipulation of variables&rdquo / and &ldquo / using two manipulated variable simultaneously&rdquo / were the two different types of observed unsystematic manipulations. Lastly, participants&rsquo / evidence evaluation processes were categorized based on the driving sources: &ldquo / Data-driven evidence evaluation&rdquo / and &ldquo / prior knowledge-driven evidence evaluation&rdquo / . Detailed descriptions of these categories were presented with examples.
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Novice Teachers' Stories of Solving Problems of PracticeFranco, Yvonne 18 November 2015 (has links)
National attention given to heightening the quality of educators, calls attention to the practices used by programs to prepare teachers (CAEP, 2013). The Council for the Accreditation of Educator Preparation (CAEP) requires evidence novice teachers “apply the professional… skills and dispositions preparation experiences were designed to achieve” (p.13). Grounded in reflection, teacher inquiry serves as a pedagogical practice to prepare teachers to systematically learn from their problems of practice (Shulman, 1986; Yendol-Hoppey & Franco, 2014). Despite evidence teacher inquiry leads preservice teachers (PSTs) to focus on student learning with the goal of improving practice (Capobianco, 2007; Dawson, 2006; Taylor & Pettit, 2007), research has yet to identify how beginning teachers approach their problems. Using a narrative methodology, this qualitative study interviewed two first-year teachers to glean insight into the problems of practice they identified, the inquiry related skills and dispositions that surfaced when they approached problems, and the barriers and facilitators to resolving challenges experienced in their elementary school context (Clandinin & Connelly, 2000). Findings include (a) novices identified problems related to instructional methods, collaborating with stakeholders and teaching special need students; (b) inquiry skills and dispositions were most evident when approaching problems related to students’ needs and instructional methods; (c) critical learning and emotional intelligence surfaced, though with varying levels of depth, depended on the identified problem of practice; (d) novices demonstrated awareness their instructional practices impacted students; (e) novices sought ways to drive change in practice; and (f) critical learning and reflective dispositions supported novices to regulate emotions. The study suggests several implications for school administrators, mentors, and teacher educators, such as (a) leading novices to see beyond classroom management; (b) emphasizing essential problem solving skills; (c) supporting novices when the nature of the problem of practice inhibits asking investigative questions; (d) communicating boundaries for novices to drive change; (e) fostering critical learning with reflective focus on student needs; (f) cultivating the symbiotic relationship between emotional intelligence, critical learning, and reflection; and (g) promoting the novice teacher researcher in a traditional novice teacher culture.
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