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DescriptionAcoustic Ecology is an undervalued field of study of the relationship between the environment and sound. This project aims to educate people on this topic and show people the importance by immersing them in virtual reality scenes. The scenes were created using VR180 content as well as 360° spatial audio.
ContributorsNeel, Jordan Tanner (Author) / LiKamWa, Robert (Thesis director) / Feisst, Sabine (Committee member) / Arts, Media and Engineering Sch T (Contributor) / Department of Psychology (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
A thorough understanding of the key concepts of logic is critical for student success. Logic is often not explicitly taught as its own subject in modern curriculums, which results in misconceptions among students as to what comprises logical reasoning. In addition, current standardized testing schemes often promote teaching styles which emphasize students' abilities to memorize set problem-solving methods over their capacities to reason abstractly and creatively. These phenomena, in tandem with halting progress in United States education compared to other developed nations, suggest that implementing logic courses into public schools and universities can better prepare students for professional careers and beyond. In particular, logic is essential for mathematics students as they transition from calculation-based courses to theoretical, proof-based classes. Many students find this adjustment difficult, and existing university-level courses which emphasize the technical aspects of symbolic logic do not fully bridge the gap between these two different approaches to mathematics. As a step towards resolving this problem, this project proposes a logic course which integrates historical, technical, and interdisciplinary investigations to present logic as a robust and meaningful subject warranting independent study. This course is designed with mathematics students in mind, with particular stresses on different formulations of deductively valid proof schemes. Additionally, this class can either be taught before existing logic classes in an effort to gradually expose students to logic over an extended period of time, or it can replace current logic courses as a more holistic introduction to the subject. The first section of the course investigates historical developments in studies of argumentation and logic throughout different civilizations; specifically, the works of ancient China, ancient India, ancient Greece, medieval Europe, and modernity are investigated. Along the way, several important themes are highlighted within appropriate historical contexts; these are often presented in an ad hoc way in courses emphasizing technical features of symbolic logic. After the motivations for modern symbolic logic are established, the key technical features of symbolic logic are presented, including: logical connectives, truth tables, logical equivalence, derivations, predicates, and quantifiers. Potential obstacles in students' understandings of these ideas are anticipated, and resolution methods are proposed. Finally, examples of how ideas of symbolic logic are manifested in many modern disciplines are presented. In particular, key concepts in game theory, computer science, biology, grammar, and mathematics are reformulated in the context of symbolic logic. By combining the three perspectives of historical context, technical aspects, and practical applications of symbolic logic, this course will ideally make logic a more meaningful and accessible subject for students.
ContributorsRyba, Austin (Author) / Vaz, Paul (Thesis director) / Jones, Donald (Committee member) / School of Mathematical and Statistical Sciences (Contributor) / School of Historical, Philosophical and Religious Studies (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
In today's world, critical thinking and using a systems approach to problem solving are skills that are far too rare. In the age of information, the truth has become muddled by "fake news" and a constant barrage of exaggerations or blatant falsehoods. Without critical thinking skills, "many members of our society do not command the scientific literacy necessary to address important societal issues and concerns" (NCES 2012, p.11). Additionally, far too many people are incapable of thinking long term and understanding how their actions affect others. Because of this shortsightedness our world is facing one of its biggest ecological crises \u2014 global warming confounded by overpopulation and overconsumption. Now, more than ever, it is critical "for our young people to have a basic understanding of the relevant scientific ideas, technologies and ethical issues and powers of reasoning, to be prepared to face these issues" (Harlen et al., 2015). I believe that investigating innovative ways to teach ecology could be an important step to accomplishing this. Learning to think like a scientist forces people to rely on facts, follow similar protocols to deduce these facts, and be able to think critically about misleading events. More specifically, ecology education will allow people to develop those skills while also learning about team work, open-mindedness, and their environment. Ecology is defined as "the branch of biology that deals with the relations of organisms to one another and to their physical surroundings" (Dictionary.com, 2018). It is clear that this subcategory of science could act as a powerful introduction to the scientific world and how we relate to it. Its introduction at a young age has the potential to create a generation of conscientious and curious lifelong learners. In an attempt to support effective ways to teach ecology, I developed an educational unit and applied it in different educational contexts. My target audience was elementary aged students and I tested this unit with children in Phoenix Metropolitan Area afterschool programs. I taught core concepts of ecology \u2014 the water cycle, the sun's energy, plants and photosynthesis, and food webs \u2014in a sequence of lesson plans that build upon each other. Finally, I determined the appropriate age group and setting for these lesson plans through research and in-class observations. In this document, I explain the process I went through in developing my lesson plans, why I felt compelled to make them, and my experiences in implementing them.
ContributorsVotaw, Alexandra Lindsay (Author) / Larson, Kelli (Thesis director) / Herrmann, Lisa (Committee member) / York, Abigail (Committee member) / School of Art (Contributor) / The Design School (Contributor) / School of Life Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
Parents in STEM careers are more apt to guide their kids towards STEM careers (Sherburne-Michigan, 2017). There are STEM programs and classes for students who are interested in related fields, but the conundrum is that students need to be interested in order to choose to participate. The goal of this creative project was to introduce engineering concepts in a high school class to reveal and investigate the ways in which engineering concepts can be successfully introduced to a larger student populace to increase interest in engineering programs, courses, and degrees. A lesson plan and corresponding materials - including circuit kits and a simulated ball launching station with graphical display - were made to accomplish this goal. Throughout the lesson students were asked to (1) use given materials to accomplish a goal, (2) predict outcomes based on conceptual understanding and mathematical calculations, (3) test predictions, (4) record data, and (5) analyze data to generate results. The students first created a simple circuit to understand the circuit components and learn general electrical engineering concepts. A simple light dimmer circuit let students demonstrate understanding of electrical concepts (e.g., voltage, current resistance) before using the circuit to a simulated motor in order to launch a ball. The students were then asked to predict the time and height of a ball launched with various settings of their control circuit. The students were able to test their theories with the simulated launcher test set up shown in Figure 25 and collect data to create a parabolic height versus time graph. Based on the measured graph, the students were able to record their results and compare calculated values to real-world measured values. The results of the study suggest ways to introduce students to engineering while developing hands-on concept modeling of projectile motion and circuit design in math classrooms. Additionally, this lesson identifies a rich topic for teachers and STEM education researchers to explore lesson plans with interdisciplinary connections to engineering. This report will include the inspiration for the product, related work, iterative design process, and the final design. This information will be followed by user feedback, a project reflection, and lessons learned. The report will conclude with a summary and a discussion of future work.
ContributorsBurgess, Kylee Rae (Author) / Jordan, Shawn (Thesis director) / Sohoni, Sohum (Committee member) / Kinach, Barbara (Committee member) / Engineering Programs (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
Women and people of color are some of the most underrepresented groups in the STEM field (science, technology, engineering, and mathematics). The purpose of this study was to uncover the barriers that undergraduate Hispanic women, as well as other women of color, face while pursuing an education in a STEM-related major at Arizona State University (ASU). In-depth interviews were conducted with 13 adult participants to dig deeper into the experiences of each woman and analyze how race and class overlap in each of the women's experiences. The concept of intersectionality was used to highlight various barriers such as perceptions of working versus middle-class students, the experience of being a first-generation college student, diversity campus-wide and in the classroom, effects of stereotyping, and impacts of mentorships. All women, no matter their gender, race, or socioeconomic status, faced struggles with stereotyping, marginalization, and isolation. Women in STEM majors at ASU performed better when provided with positive mentorships and grew aspirations to become a professional in the STEM field when encouraged and guided by someone who helped them build their scientific identities. Working-class women suffered from severe stress related to finances, family support, employment, and stereotyping. Reforming the culture of STEM fields in higher education will allow women to achieve success, further build their scientific identities, and increase the rate of women graduating with STEM degrees.
ContributorsValdivia, Lilianna Alina (Author) / Kim, Linda (Thesis director) / Camacho, Erika (Committee member) / School of Mathematical and Natural Sciences (Contributor) / School of Social and Behavioral Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
In response to a national call within STEM to increase diversity within the sciences, there has been a growth in science education research aimed at increasing participation of underrepresented groups in science, such as women and ethnic/racial minorities. However, an underexplored underrepresented group in science are religious students. Though 82% of the United States population is religiously affiliated, only 52% of scientists are religious (Pew, 2009). Even further, only 32% of biologists are religious, with 25% identifying as Christian (Pew, 2009; Ecklund, 2007). One reason as to why Christian individuals are underrepresented in biology is because faculty may express biases that affect students' ability to persist in the field of biology. In this study, we explored how revealing a Christian student's religious identity on science graduate application would impact faculty's perception of the student during the biology graduate application process. We found that faculty were significantly more likely to perceive the student who revealed their religious identity to be less competent, hirable, likeable, and faculty would be less likely to mentor the student. Our study informs upon possible reasons as to why there is an underrepresentation of Christians in science. This further suggests that bias against Christians must be addressed in order to avoid real-world, negative treatment of Christians in science.
ContributorsTruong, Jasmine Maylee (Author) / Brownell, Sara (Thesis director) / Gaughan, Monica (Committee member) / Barnes, Liz (Committee member) / School of Life Sciences (Contributor) / W.P. Carey School of Business (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
The fields of psychology and education are typically housed within separate contexts. Psychology is the scientific study of the mind, thoughts, behaviors and actions (Nordqvist, 2018). The history of psychology originated centuries ago in Europe, although some attribute the beginning of mind study as far back as Aristotle. Currently, the American Psychological Association has 54 active scientific divisions, ranging from the Society of Military Psychology to Psychological Hypnosis. Education, has been studied in a variety of ways, including curriculum, instruction, and educational policy. Educational psychology is a relatively new field that examines the effects of how psychological science can be applied to learning and educational success (Parankimalil, 2014). Some of the factors that educational psychologists study include: educational reform, classroom interactions, stimuli effects on learning, student motivation, individual and collective self-beliefs, goal orientation, theory of attribution, and cognitive development. It is important to distinguish that each student has a unique approach to learning. Student relationships in classrooms can profoundly impact this learning. Moreover, student motivation stems intrinsically and is influenced by external factors. Research demonstrates the positive effects sensory stimuli, including auditory, tactile, olfactory and visual, can have on student learning as well. Intrinsic and extrinsic motivation are inseparable facets of student learning, as explained by the self-determination theory. This allows for student progression from external to internal motivation, to develop better learning methods. Educational psychology is very relevant to study today, more so in a classroom where students are actively synthesizing the information learned, to apply it to real-world situations. Future research includes studying cultural effects, technology, stereotypes and reciprocal determinism in an educational setting and providing individualized learning opportunities. This research provides a transition to a student focused change rather than the cyclical model currently driving the education system today. By studying the psychological effects in a classroom, the goal is to reduce the dropout rate and improve child and adolescent education by personalizing learning.
ContributorsGanesh, Ayoshna (Co-author) / Viswanath, Pooja (Co-author) / Lynch, Christa (Thesis director) / Mitchell, Jennifer (Committee member) / Department of Psychology (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
Teacher preparation programs and how they function and educate future teachers can have large-scale impacts within the classroom, yet in the United States we see these processes operating drastically differently in various states, cities, and universities. In order to understand some of the differences in teacher preparation programs and how they differ from other programs, this study reviews the literature and shares the experiences of current students in teacher preparation programs both in the United States and Finland. Finland's education system has risen to international notoriety with the use and reporting of the country's strong ranking on the Programme for International Student Achievement or PISA. In 2001 during the inaugural publication of the PISA results, Finland was ranked in the top three of all three subject areas (science, reading, and mathematics literacy) amongst other nations in the Organisation for Economic Co-operation and Development (OECD). The small Nordic nation exceeded anyone's expectations of their performance on the PISA and gained worldwide recognition for the high caliber of their students and their education system. One of the biggest components of a strong education system is the strength and caliber of its teachers. As a part of the Finnish reforms in the 1970's, policies and oversight were put in place regarding the preparation of teachers for Finnish schools. The level of preparation and the qualifications of teachers were increased as a part of these reform efforts and as such Finnish teachers are required to hold at minimum, a Master's degree. Teacher preparation programs in Finland have been consolidated into just eight universities nationwide with rigorous programs and a research emphasis. Teaching in Finland is also a highly sought after and well-regarded career path. According to the Finnish Teacher Training Schools, "[i]n 2016, over 6600 applicants competed for the 660 available slots in primary school preparation programmes" (About us, 2017). With an admission rate of only ten percent, teacher preparation programs are extremely competitive, oftentimes rivaling admission rates of medical or law schools. As the United States seeks to strengthen its education system, it is vital that we learn from the success of other nations. Making changes to the policies and processes of teacher training has been highly successful in strengthening the Finnish education system and contains insights relevant to improving the education system here in the US. Experiences, insights, and observations of the Finnish teacher training process can be impactful in evaluating ways in which the United States could seek to improve its own teacher training. Based on the available literature and experiences shared by both Finnish and American teacher preparation students and program graduates, I will compare some of the differences between the two systems and provide recommendations as to how the United States could incorporate some of the successful components of Finnish teacher training programs into its own offerings as it works to better prepare teachers for the classroom.
ContributorsEtz, Shannon Faye (Author) / LePore, Paul (Thesis director) / Ingram-Waters, Mary (Committee member) / Division of Teacher Preparation (Contributor) / W.P. Carey School of Business (Contributor) / Department of Management and Entrepreneurship (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
Theory Jam is a series of online, education videos that teach music theory in a fun, engaging way. Our project is a response to the growing need for successful online education content. It incorporates strategies for creating effective educational video content and engages with contemporary debates in the field of music theory surrounding the purpose of a music theory education.
ContributorsCannatelli, Joshua Bryce (Co-author) / Daval, Charles Joseph (Co-author) / Miller, April (Thesis director) / Scott, Jason (Committee member) / Tobias, Evan (Committee member) / Department of English (Contributor) / School of Film, Dance and Theatre (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
The Reggio Emilia Approach to early childhood education is touted as one of the best educational philosophies for teaching young students. The approach emphasizes project-based learning, multiple intelligences, and community involvement, among other key tenets. While Reggio is growing in popularity worldwide, little research exists measuring the true efficacy of the approach. This study identifies research-based pedagogical best practices that support the elements central to the Reggio classroom. The study also explores adapting the Reggio Emilia Approach to the upper-elementary or middle school classroom. The approach is traditionally meant for early childhood, but its research-backed strategies could benefit students of any age group. The study is followed by three sample lesson plans, demonstrating how elements of the Reggio Emilia Approach could be adapted into a middle school English curriculum.
ContributorsMalmgren, Mikala Kasin (Author) / Hart-Barnett, Juliet (Thesis director) / McKee, Diane (Committee member) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05