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Description
In this study, the Arizona State University Mathematics and Science Teaching Fellows 2010 program was analyzed qualitatively from start to finish to determine the impact of the research experience on teachers in the classroom. The sample for the study was the 2010 cohort of eight high school science teachers. Erickson's (1986) interpretive, participant observational fieldwork method was used to report data by means of detailed descriptions of the research experience and classroom implementation. Data was collected from teacher documents, interviews, and observations. The findings revealed various factors that were responsible for an ineffective implementation of the research experience in the classroom such as research experience, curriculum support, availability of resources, and school curriculum. Implications and recommendations for future programs are discussed in the study.
ContributorsSen, Tapati (Author) / Baker, Dale (Thesis advisor) / Culbertson, Robert (Committee member) / Margolis, Eric (Committee member) / Arizona State University (Publisher)
Created2012
Description
Historically, African American students have been underrepresented in the fields of science, technology, engineering and mathematics (STEM). If African American students continue to be underrepresented in STEM fields, they will not have access to valuable and high-paying sectors of the economy. Despite the number of African Americans in these fields being disproportionately low, there are still individuals that persist and complete science degrees. The aim of this study was to investigate African American students who excel in science at Arizona State University and examine the barriers and affordances that they encounter on their journey toward graduation. Qualitative research methods were used to address the research question of the study. My methodology included creating a case study to investigate the experiences of eight African American undergraduate college students at Arizona State University. These four male and four female students were excelling sophomores, juniors, or seniors who were majoring in a science field. Two of the males came from lower socioeconomic status (SES) backgrounds, while two of the males were from higher SES backgrounds. The same applied to the four female participants. My research utilized surveys, semistructured interviews, and student observations to collect data that was analyzed and coded to determine common themes and elements that exist between the students. As a result of the data collection opportunities, peer support and financial support were identified as barriers, while, parental support, financial support, peer support, and teacher support were identified as affordances. In analyzing the data, the results indicated that for the student subjects in this study, sex and SES did not have any relationship with the barriers and affordances experienced.
ContributorsBoyce, Quintin (Author) / Scott, Kimberly (Thesis advisor) / Falls, Deanne (Committee member) / Baker, Dale (Committee member) / Arizona State University (Publisher)
Created2012
Description
Struggle is a behavior that is often perceived in a negative light in education. Students respond to struggle by avoiding them. Likewise, educators respond by removing obstacles (e.g., heavily scaffolded instruction) or providing assistance prematurely. The ability and opportunity to engage in struggle, specifically productive struggle, is critical in mathematical problem solving. Large bodies of research have shown the benefits of productive struggle and even temporary failure. Grounded in the idea that productive struggle is necessary for learning, this qualitative action research aimed to examine the impact of productive failure instructional design (PFID) on mathematics instruction from the perspectives of four middle school teachers in urban communities in California. In the study, teachers created and implemented an 8-week mini unit focusing on problem solving based on PFID. Data were collected and analyzed from multiple sources, which included pre- and post-surveys, teacher reflection journals, interviews, questionnaires, informal meetings, classroom observations, and student pre- and post-tests. Findings from the study indicated that after implementing PFID, teachers had a deeper understanding of the importance of intentionally embedding productive failure in their mathematics instruction, as well as a more positive attitude towards struggle. The study also revealed that teachers viewed PFID as highly beneficial and effective. Lastly, the study showed that six factors in a professional development affected teachers’ willingness to implement PFID in their classroom: flexibility, professional growth, hands-on experience, collaboration, enjoyment, and ease of integration into existing teaching curriculum.
ContributorsRehak, Youlina Thol (Author) / Baker, Dale (Thesis advisor) / Wolf, Leigh (Committee member) / Rodriguez, Jose M. (Committee member) / Arizona State University (Publisher)
Created2023