Spelling suggestions: "subject:"instructional strategies"" "subject:"lnstructional strategies""
11 |
How Static is the Statics Classroom? An investigation into how innovations, specifically Research-Based Instructional Strategies, are adopted into the Statics classroomCutler, Stephanie Leigh 03 May 2013 (has links)
The purpose of this dissertation is to investigate how educational research, specifically Research-Based Instructional Strategies (RBIS), is adopted by education practice, specifically within the engineering Statics classroom. Using a systematic approach, changes in classroom teaching practices were investigated from the instructors\' perspective. Both researchers and practitioners are included in the process, combining efforts to improve student learning, which is a critical goal for engineering education. The study is divided into 3 stages and each is discussed in an individual manuscript. Manuscript 1 provides an assessment of current teaching practices; Manuscript 2 explores RBIS use by Statics instructors and perceived barriers of adoption; and Manuscript 3 evaluates adoption using Fidelity of Implementation. <br /><br />A common set of concurrent mixed methods was used for each stage of this study. A quantitative national survey of Statics instructors (n =166) and 18 qualitative interviews were conducted to examine activities used in the Statics classroom and familiarity with nine RBIS. <br /><br />The results of this study show that lecturing is the most common activity throughout Statics classrooms, but is not the only activity. Other common activities included working examples and students working on problems individually and in groups. As discussed by the interview participants, each of Rogers\' characteristics influenced adoption for different reasons. For example, Complexity (level of difficulty with implementation of an RBIS) was most commonly identified as a barrier. His study also evaluated the Fidelity of Implementation for each RBIS and found it to be higher for RBIS that were less complex (in terms of the number of critical components). Many of the critical components (i.e. activities required for implementation, as described in the literature) were found to statistically distinguish RBIS users and non-users. <br /><br />This dissertation offers four contributions: (1) an understanding of current ractices in Statics; (2) the instructor perspective of the barriers to using RBIS in the classroom; (3) the use of Fidelity of Implementation as a unique evaluation of RBIS adoption, which can be used by future engineering education researchers; and (4) a systematic approach of exploring change in the classroom, which offers new perspectives and approaches to accelerate the adoption process.<br /> / Ph. D.
|
12 |
The Effects Of Hands-on Instructional Strategies On Fourth Grade Students' Attitudes And Performance In MathematicsHosack, Lindsey 01 January 2006 (has links)
This study summarizes research conducted in a fourth grade classroom in a suburban elementary school in the fall of 2005. This study investigated the practice of using hands-on instructional strategies, enhanced with technology, to improve students' attitudes and performance in mathematics. The classroom teacher supplemented conventional mathematics instruction with hands-on activities. Attitudinal data were collected using a pre- and post anxiety survey as well as journal writing assignments and student interviews. Performance data was collected using evaluative assessments. Results of this study showed a positive change in students' attitude towards mathematics. Student performance gains were recorded and analyzed throughout the 12-week study. Twenty of the 26 students who participated in the study scored satisfactorily on all evaluative assessments. Data indicated little change was evident in student performance on assessments due to the high performing students who participated in the study.
|
13 |
Investigating Simulation-Based Pattern Recognition Training For Behavior Cue DetectionMaraj, Crystal 01 January 2015 (has links)
The U.S. military uses pattern recognition training to observe anomalies in human behavior. An examination of the pattern recognition training literature for Warfighters reveals a gap in training to discern patterns of human behavior in live environments. Additionally, the current state of warfare is evolving and requires operations to change. As a result, pattern recognition training must accommodate new practices to improve performance. A technique used to improve memory for identifying patterns in the environment is Kim's game. Kim's game establishes patterns to identify inanimate objects, of which information retains in memory for later recall. The paper discusses the fundamental principles of Kim's game applied to virtual Simulation-Based Training. The virtual version of Kim's game contains customized scenarios for training behavior cue analysis. Virtual agents display kinesic cues that exhibit aggressive (i.e., slap hands and clench fist) and nervous behaviors including wring hands and check six. This research takes a novel approach by animating the kinesics cues in the virtual version of Kim's game for pattern recognition training. Detection accuracy, response time, and false positive detection serve as the performance data for analysis. Additional survey data collected include engagement, flow, and simulator sickness. All collected data was compared to a control condition to examine its effectiveness of behavior cue detection. A series of one-way between subjects design ANOVA's were conducted to examine the differences between Kim's game and control on post-test performance. Although, the results from this experiment showed no significance in post-test performance, the percent change in post-test performance provide further insight into the results of the Kim's game and control strategies. Specifically, participants in the control condition performed better than the Kim's game group on detection accuracy and response time. However, the Kim's game group outperformed the control group on false positive detection. Further, this experiment explored the differences in Engagement, Flow, and Simulator Sickness after the practice scenario between Kim's game group and the control group. The results found no significant difference in Engagement, partial significance for Flow, and significant difference for Simulator Sickness between the Kim's game and control group after the practice scenario. Next, a series of Spearman's rank correlations were conducted to assess the relationships between Engagement, Flow, Simulator Sickness, and post-test performance, as well as examine the relationship between working memory and training performance; resulting in meaningful correlations to explain the relationships and identifying new concepts to explain unrelated variables. Finally, the role of Engagement, Flow, and Simulator Sickness as a predictor of post-test performance was examined using a series of multiple linear regressions. The results highlighted Simulator Sickness as a significant predictor of post-test performance. Overall, the results from this experiment proposes to expand the body of pattern recognition training literature by identifying strategies that enhance behavior cue detection training. Furthermore, it provides recommendations to training and education communities for improving behavior cue analysis. ?
|
14 |
Characteristics and Decision-Making Processes of Collaborative Teams inDetermining Instructional Strategies: An Ethnographic Case StudyVanHorn, Gregory Ray 26 July 2018 (has links)
No description available.
|
15 |
THE DESIGN AND USE OF STRATEGIES IN FACE-TO-FACE AND ONLINE INSTRUCTIONSTUART, JANE SHEPHERD 17 April 2003 (has links)
No description available.
|
16 |
To What Extent do Professional Training, School Demographics, Teacher Bilingualism, and Teacher Attitude Predict the Instructional Strategies that Elementary School Content Area Teachers use with English Language Learners?Rader-Brown, Lucy M. January 2010 (has links)
No description available.
|
17 |
Instructional Strategies in Early Childhood Teacher Education: A Comparison of Two ApproachesAllen, Amy E. 30 September 2008 (has links)
No description available.
|
18 |
Instructional Change in Engineering Education: A Conceptual System Dynamics Model of Adoption of Research-Based Instructional Strategies in the ClassroomCruz Bohorquez, Juan Manuel 09 September 2019 (has links)
The overall goal of this study was to better understand how the academic system affects change in instructional practices, referred to as instructional change, in engineering education. To accomplish this goal, and acknowledging the complex nature of academia, I used a technique designed to understand complex systems called System Dynamics Modeling. With such technique, I created a conceptual System Dynamics Model (SDM) that illustrates how the factors in the academic system interact dynamically to drive or hinder faculty motivation to adopt Research-based Instructional Strategies (RBIS) in their courses. The creation of this model followed a process that combined research literature with data gathered from 17 professors at an Engineering Department in another country.
The model was constructed through an iterative process of systematically reviewing the literature, gather empirical data and creating Causal Loop Diagrams (CLD). The CLD are representations of the different causal relationships between elements in a system which ultimately create what we called virtuous or vicious (reinforcing) cycles and balancing cycles. The whole idea was not to find the causes for professors' motivation to change but how the factors in the academic system reinforce or limit such motivation.
With this model I offered a different answer to the calls for change in engineering education toward increasing the pedagogical quality of our learning environments. My biggest argument is that previous instructional change initiatives have yielded low to moderate success, because effective instructional change would require a perspective that accounts for the complex nature of academia. With this study I am providing a different understanding of instructional change by using a system perspective that shows the interactions of elements within a complex system that ultimately influences faculty to adopt RBIS in their courses. / Doctor of Philosophy / The overall goal of this study was to better understand how the academic system affects change in instructional practices, referred to as instructional change, in engineering education. To accomplish this goal, and acknowledging the complex nature of academia, I used a technique designed to understand complex systems called System Dynamics Modeling. With such technique, I created a conceptual System Dynamics Model (SDM) that illustrates how the factors in the academic system interact dynamically to drive or hinder faculty motivation to adopt Research-based Instructional Strategies (RBIS) in their courses. The creation of this model followed a process that combined research literature with data gathered from 17 professors at an Engineering Department in another country. The model was constructed through an iterative process of systematically reviewing the literature, gather empirical data and creating Causal Loop Diagrams (CLD). The CLD are representations of the different causal relationships between elements in a system which ultimately create what we called virtuous or vicious (reinforcing) cycles and balancing cycles. The whole idea was not to find the causes for professors’ motivation to change but how the factors in the academic system reinforce or limit such motivation. With this model I offered a different answer to the calls for change in engineering education toward increasing the pedagogical quality of our learning environments. My biggest argument is that previous instructional change initiatives have yielded low to moderate success, because effective instructional change would require a perspective that accounts for the complex nature of academia. With this study I am providing a different understanding of instructional change by using a system perspective that shows the interactions of elements within a complex system that ultimately influences faculty to adopt RBIS in their courses.
|
19 |
Designing Effective Professional Development for Teaching Students in Poverty: Impact on Teacher Beliefs and Classroom PracticeWickham, Barbara Martin 03 April 2020 (has links)
Poverty has a consequential impact on student achievement. The No Child Left Behind Act and more recently the Every Student Succeeds Act put pressure on educators to close the achievement gap that exists for economically disadvantaged students. While this gap remains, high-poverty, high-achieving schools do exist. The purpose of this study was to discern the impact of practitioner-designed professional development (PD) on teacher beliefs about students from poverty. This study focused on the creation and implementation of PD designed to help teachers explore their beliefs, and investigated whether these beliefs changed after teachers received PD addressing teaching students from poverty. This PD was based on research from multiple studies on educators' perspectives and effective teaching strategies for poor students. The study was conducted using action research, with a mixed-methods approach, incorporating the quantitative analysis of surveys and the qualitative analysis of professional learning experiences and interviews. Findings from the study indicate that practitioner-designed PD can impact teachers' beliefs and lead to changes in their instructional practices. This research could provide guidance for school administrators and higher education leaders who seek to develop and implement PD that addresses teaching students in poverty. / Doctor of Education / Poverty has a consequential impact on student achievement. The No Child Left Behind Act and more recently the Every Student Succeeds Act required educators to close the achievement gap that exists for students from poverty. While this gap remains, high-poverty, high-achieving schools do exist. The purpose of this study was to discern the impact of practitioner-designed professional development (PD) on teacher beliefs about students from poverty. The study focused on the creation and implementation of PD designed to help teachers explore their beliefs, and investigated whether these beliefs changed after teachers received PD addressing teaching students from poverty. Findings from the study indicate that practitioner-designed PD can impact teachers' beliefs and lead to changes in their instructional practices. This research could provide guidance for school administrators and higher education leaders who seek to develop and implement PD that addresses teaching students in poverty.
|
20 |
The effects of professional development on instructional strategies and the resulting influences on student learning for a physics curriculumCleavinger, Laurie January 1900 (has links)
Doctor of Philosophy / Curriculum and Instruction Programs / Margaret G. Shroyer / In this study, the professional development for a physics program called Visual Quantum Mechanics (VQM) was observed and analyzed. Four of the participants in a summer institute as Kansas State University (KSU) volunteered to be observed by the researcher as they implemented the program into their classrooms during the next academic year. Observations were used to determine the effectiveness of the instructional strategies that they used. The students’ perception of the laboratory sessions was evaluated and student understanding of the physics concepts also was determined.
Qualitative and quantitative data analyses indicated that the professional development as presented and supported by the KSU team provided teachers with the information necessary to use the VQM program successfully with their students. However, only 30% of the teachers implemented the program during the following school year. Instructional strategies advocated by the VQM program included use of the hands-on equipment and computer simulations as well as discussion techniques. Observations revealed that students were more attentive during laboratory activities and less attentive during the discussions. Nevertheless, discussion proved to be a valuable component of this process. The researcher concluded that high quality professional development encouraged teaches to implement VQM in their classrooms. Although teachers did not always follow the instructional strategies advocated by the program, the inquiry-based hands-on activities and computer simulations kept students attentive. As a result, there was significant learning directly attributable to VQM for the students who participated in the study. Students who finished a complete learning cycle within the activities showed more significant learning than students who did not complete a learning cycle.
Professional development can be designed to encourage teachers to implement new skills. For Visual Quantum Mechanics, emphasizing the importance of the whole class discussions, presenting the connections between the concepts and the science standards, and focusing on strategies for implementation will provide additional confidence to teachers as they implement the program in their classrooms.
|
Page generated in 0.4742 seconds