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Description
As we count down the years remaining before a global climate catastrophe, ever increases the importance of teaching environmental history and fostering environmental stewardship from a young age. In the age of globalization, nothing exists in a vacuum, yet our traditional education system often fails to reflect the abundant connections between content areas that are prevalent outside of schools. In fact, many of the flaws of the field of education have been exacerbated by the COVID-19 pandemic and a forced transition to online schooling, with many educators reverting to outdated practices in a desperate attempt to get students through the year. The aim of this project was to design a unit curriculum with these issues in mind. This month-long environmental history unit engages students through the use of hands-on activities and promotes interdisciplinary connections. The unit can be taught in a physical, online, or hybrid American history class, and will hopefully inspire and motivate students to become environmental stewards as they look toward their futures on this planet.
ContributorsColeman, Lauren Jean (Author) / Walters, Molina (Thesis director) / Anthony, Charles (Committee member) / School of International Letters and Cultures (Contributor) / School of Mathematical and Statistical Sciences (Contributor) / Division of Teacher Preparation (Contributor, Contributor) / Barrett, The Honors College (Contributor)
Created2021-05
Description
Museums have long been known as an exciting, educational field trip for teachers and students, however, they have the potential to be more. Aside from field trips, some museums offer a range of resources for teachers including professional development sessions. This study followed a sample of classroom teachers as they completed a three-part workshop on Project Based Learning in order to determine in what ways does museum-based professional development change (a) Teacher perceptions of museum resources and (b) Teacher utilization of museum resources within their classroom, as well as what aspects of the museum-designed professional development experience did teachers find most effective in impacting their own teaching. The Experiential Learning Theory and an Awareness, Interest, Desire, Action (AIDA) effect model were used to evaluate how perceptions changed before and after the museum-designed experience. Overall, the trustworthiness of the informal educators and their resources increased, as well as teacher utilization of the resources since participation. Some of the aspects that teachers reported as most effective included their willingness to engage because of their overall enjoyment of the experience. Teachers also emphasized that these workshop sessions enhanced their current teaching practices, and did not simply replace them.
ContributorsGallagher Schromm, Lisa (Author) / Rotheram-Fuller, Erin (Thesis advisor) / Toon, Richard (Committee member) / Walters, Molina (Committee member) / Arizona State University (Publisher)
Created2023
Description
This graduate thesis explains and discusses the background, methods, limitations, and future work of developing a low-budget, variable-length, Arduino-based robotics professional development program (PDP) for middle school or high school classrooms. This graduate thesis builds on prior undergraduate thesis work and conclusions. The main conclusions from the undergraduate thesis work focused on reaching a larger teacher population along with providing a more robust robot design and construction. The end goal of this graduate thesis is to develop a PDP that reaches multiple teachers, involves a more robust robot design, and lasts beyond this developmental year. There have been many similar research studies and PDPs that have been tested and analyzed but do not fit the requirements of this graduate thesis. These programs provide some guidance in the creation of a new PDP. The overall method of the graduate thesis comes in four main phases: 1) setup, 2) pre-PDP phase, 3) PDP phase, and 4) post PDP phase. The setup focused primarily on funding, IRB approval, research, timeline development, and research question creation. The pre-PDP phase focused primarily on the development of new tailored-to-teacher content, a more robust robot design, and recruitment of participants. The PDP phase primarily focused on how the teachers perform and participate in the PDP. Lastly, the post PDP phase involved data analysis along with a resource development plan. The last post-PDP step is to consolidate all of the findings in a clear, concise, and coherent format for future work.
Contributorslerner, jonah (Author) / Carberry, Adam (Thesis advisor) / Walters, Molina (Committee member) / Jordan, Shawn (Committee member) / Arizona State University (Publisher)
Created2020
Description
This project examined the importance of inquiry in science education. The Arizona Science
Standards call for a change from teaching facts to teaching students to construct explanations of phenomena by engaging in science and engineering practices. Through a blend of science and engineering practices, core ideas, and crosscutting concepts, the performance expectations form standards that address applying ideas to explanation of phenomena, problem solving, and decision making. The ideas conveyed in the standards need to be developed over time through multiple lessons. Rather than simply present information to students, the Arizona Science Standards require teachers to support students in constructing explanations of phenomena and developing solutions to problems. The integration of the Arizona Science Standards in the science curriculum through the Five E model has the potential to provide students with inquiry- based learning that will help develop their science literacy skills. The 5E inquiry model consists of five phases: Engagement, Exploration, Explanation, Elaboration, and Evaluation. Each phase contributes to the learning process as students are encouraged to actively build their knowledge. The learning experiences in science education become richer and more meaningful to students when the science literacy skills are successfully integrated into the 5E inquiry model. Not only will the students learn the skills of science, but also, they will be actively engaged with science content. Active engagements with science will likely foster interest and positive attitudes towards science. This thesis project developed a way to implement inquiry-based learning through an electricity and magnetism unit that uses the 5E model and aligns with the Arizona State Science Standards. The goal of this project was to develop a science unit that can be implemented in future classrooms.
Standards call for a change from teaching facts to teaching students to construct explanations of phenomena by engaging in science and engineering practices. Through a blend of science and engineering practices, core ideas, and crosscutting concepts, the performance expectations form standards that address applying ideas to explanation of phenomena, problem solving, and decision making. The ideas conveyed in the standards need to be developed over time through multiple lessons. Rather than simply present information to students, the Arizona Science Standards require teachers to support students in constructing explanations of phenomena and developing solutions to problems. The integration of the Arizona Science Standards in the science curriculum through the Five E model has the potential to provide students with inquiry- based learning that will help develop their science literacy skills. The 5E inquiry model consists of five phases: Engagement, Exploration, Explanation, Elaboration, and Evaluation. Each phase contributes to the learning process as students are encouraged to actively build their knowledge. The learning experiences in science education become richer and more meaningful to students when the science literacy skills are successfully integrated into the 5E inquiry model. Not only will the students learn the skills of science, but also, they will be actively engaged with science content. Active engagements with science will likely foster interest and positive attitudes towards science. This thesis project developed a way to implement inquiry-based learning through an electricity and magnetism unit that uses the 5E model and aligns with the Arizona State Science Standards. The goal of this project was to develop a science unit that can be implemented in future classrooms.
ContributorsZou, Christy (Author) / Walters, Molina (Thesis director) / McKee, Dianne (Committee member) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
The creative project, First-Year Teachers Manual, is specifically designed to be a resource for beginning teachers, along with returning educators, who are seeking tips about the profession and day-to-day duties of teaching. The manual is research-based and is a toolbox of tips, suggestions, and additional resources that every teacher should know before walking into their first classroom. The information presented can be adapted for various grade levels and types of classroom settings.
ContributorsHuston, Kayla N (Author) / Walters, Molina (Thesis director) / Palichuk, Katie (Committee member) / Division of Teacher Preparation (Contributor, Contributor) / Barrett, The Honors College (Contributor)
Created2020-12
Description
Teamwork and project management (TPM) tools are important components of sustainability science curricula designed using problem- and project-base learning (PPBL). Tools are additional materials, beyond lectures, readings, and assignments, that structure and facilitate students' learning; they can enhance student teams' ability to complete projects and achieve learning outcomes and, if instructors can find appropriate existing tools, can reduce time needed for class design and preparation. This research uses a case study approach to evaluate the effectiveness of five TPM tools in two Arizona State University (ASU) sustainability classes: an introductory (100-level) and a capstone (400-level) class. Data was collected from student evaluations and instructor observations in both classes during Spring 2013 and qualitatively analyzed to identify patterns in tool use and effectiveness. Results suggest how instructors might improve tool effectiveness in other sustainability classes. Work plans and meeting agendas were the most effective TPM tools in the 100-level class, while work plans and codes of collaboration were most effective at the 400 level. Common factors in tool effectiveness include active use and integration of tools into class activities. Suggestions for improving tool effectiveness at both levels include introducing tools earlier in the course, incorporating tools into activities, and helping students link a tool's value to sustainability problem-solving competence. Polling students on prior use and incorporating tool use into project assignments may increase 100 level tool effectiveness; and at the 400 level, improvements may be achieved by introducing tools earlier and coaching students to select, find, and develop relevant tools.
ContributorsTrippel, Dorothy (Author) / Redman, Charles L. (Thesis advisor) / Pijawka, K. David (Committee member) / Walters, Molina (Committee member) / Arizona State University (Publisher)
Created2013