Matching Items (72)
Description
This study examines the effect of the translation of traditional scientific vocabulary into plain English, a process referred to as Anglicization, on student learning in the context of introductory microbiology instruction. Data from Anglicized and Classical-vocabulary lab sections were collected. Data included exam scores as well as pre and post-course surveys on reasoning skills, impressions of biology, science and the course, and microbiology knowledge. Students subjected to Anglicized instruction performed significantly better on exams that assessed their abilities to apply and analyze knowledge from the course, and gained similar amounts of knowledge during the course when compared to peers instructed with standard vocabulary. Their performance in upper-level courses was also better than that of their traditionally educated peers. Hypotheses related to the effect are presented and evaluated; implications for instruction are discussed.
ContributorsRichter, Emily (Author) / Lawson, Anton (Thesis advisor) / Stout, Valerie (Committee member) / Haydel, Shelley (Committee member) / Atkinson, Robert (Committee member) / Arizona State University (Publisher)
Created2011
Description
In 2004, the South Korean geneticist Woo-Suk Hwang published what was widely regarded as the most important research result in biotechnology of the year. In the prestigious American journal Science, he claimed that he had succeeded in cloning a human blastocyst, an embryo in its early stages (Hwang et al. 2004). A year later, in a second Science article, he made the earth-shattering announcement that he had derived eleven embryonic stem cell lines using his cloning technique (Hwang et al. 2005). The international scientific community was stunned. American scientists publicly fretted that President George W. Bush‘s 2001 executive order limiting federal funding for stem-cell research in the United States had put American bioscience behind the Koreans‘ (Paarlberg 2005). These breakthroughs offered potential solutions to immune system rejection of transplanted organs and possible cures for diseases such as rheumatoid arthritis, Parkinson‘s, Down‘s syndrome, and paralysis (Svenaeus 2007). However, within a year, Hwang was exposed as a fraud who had faked his results and pressured his female colleagues to donate eggs without informed consent. Despite protests against his methods from Korean religious and nongovernmental organizations, Hwang had used his prestige to ignore his ethical obligations. The Korean government, too, was slow to investigate Hwang and to subject his work to appropriate regulation.
ContributorsClay, Anne (Author) / Hurlbut, James (Thesis director) / Maienschein, Jane (Committee member) / Marchant, Gary (Committee member) / Barrett, The Honors College (Contributor) / School of Life Sciences (Contributor)
Created2012-12
Description
Many high school students demonstrate an overall lack of interest in science. Traditional teaching methodologies seem to be unsuccessful at engaging students \u2014 one explanation is that students often interpret what they learn in school as irrelevant to their personal lives. Active learning and case based learning methodologies seem to be more effective at promoting interest and understanding of scientific principles. The purpose of our research was to implement a lab with updated teaching methodologies that included an active learning and case based curriculum. The lab was implemented in two high school honors biology classes with the specific goals of: significantly increasing students' interest in science and its related fields; increasing students' self-efficacy in their ability to understand and interpret the traditional process of the scientific method; and increasing this traditional process of objectively understanding the scientific method. Our results indicated that interest in science and its related fields (p = .011), students' self-efficacy in understanding the scientific method (p = .000), and students' objective understanding of the scientific method (p = .000) statistically significantly increased after the lab was administered; however, our results may not be as meaningful as the p-values imply due to the scale of our assessment.
ContributorsCotten, Kathryn (Author) / Hoffner, Kristin (Thesis director) / Stout, Valerie (Committee member) / Lynskey, Jim (Committee member) / Barrett, The Honors College (Contributor) / College of Health Solutions (Contributor)
Created2012-12
DescriptionDiscusses the reading experience and writing strategies in relation to four prominent novels from the genre
ContributorsO'Malley, Erik Andrew (Author) / Cook, Paul (Thesis director) / Mallot, Edward (Committee member) / Broglio, Ronald (Committee member) / Barrett, The Honors College (Contributor) / School of Mathematical and Statistical Sciences (Contributor) / Department of English (Contributor)
Created2013-05
Description
Education is a very sensitive topic when it comes to implementing the right policies. From professionals well-versed in the topic, to the very students who are being taught, feedback for reform is constantly being addressed. Nonetheless, there remains a large gap between the performance of some of the most advanced countries in the world and the United States of America. As it stands today, USA is arguably the most technologically advanced country and the outright leader of the free market. For over a century this nation has been exceeding expectations in nearly every industry known to man and aiding the rest of the world in their endeavors for a higher standard of living. Yet, there seems to be something critically wrong with the way a large majority of the younger generation are growing up. How can a country so respected in the world fall so far behind in what is considered the basics of human education: math and science? The Trends in International Mathematics and Science Study (TIMSS) is a series of assessments taken by countries all around the world to determine the strength of their youth's knowledge. Since its inception in 1995, TIMSS has been conducted every four years with an increasing number of participating countries and students each time. In 1999 U.S. eighth-graders placed #19 in the world for mathematics and #18 for science (Appendix Fig. 1). In the years following, and further detailed in the thesis, the U.S. managed to improve the overall performance by a small margin but still remained a leg behind countries like Singapore, Hong Kong, Japan, Russia, and more. Clearly these countries were doing something right as they consistently managed to rank in the top tier. Over the course of this paper we will observe and analyze why and how Singapore has topped the TIMSS list for both math and science nearly every time it has been administered over the last two decades. What is it that they are teaching their youth that enables them to perform exceptionally above the norm? Why is it that we cannot use their techniques as a guideline to increase the capabilities of our future generations? We look to uncover the teaching methods of what is known as Singapore Math and how it has helped students all over the world. By researching current U.S. schools that have already implemented the system and learning about their success stories, we hope to not only educate but also persuade the local school districts on why integrating Singapore Math into their curriculum will lead to the betterment of the lives of thousands of children and the educational threshold of this great nation.
ContributorsKichloo, Parth (Co-author) / Leverenz, Michael (Co-author) / Kashiwagi, Dean (Thesis director) / Kashiwagi, Jacob (Committee member) / Rivera, Alfredo (Committee member) / Department of Management (Contributor) / Department of Marketing (Contributor) / Department of Finance (Contributor) / Department of Information Systems (Contributor) / Barrett, The Honors College (Contributor)
Created2016-05
Description
Scientific literacy is a critical part of the education of high school students. Students can demonstrate literacy in science by being able to read and write scientific reports as well as recognize and discuss how science affects daily lives. However, many teachers are not familiar with the topic and do not have the resources necessary to implement it into their classrooms. This project attempts to create a website that compiles information from many sources to one concise location that is simple for teachers to use. The goal of the website is to provide teachers with a resource that they can access and use quickly despite their busy schedules. The information provided is easily translatable into a classroom, and examples of lessons as well as links to resources are provided. Considerations of difficulties such as the need to prepare students for standardized tests as well as limited budgets were brought into consideration when choosing the concepts suggested for teachers. Aspects of scientific literacy addressed are: project based learning, virtual labs, apprenticeship programs, and peer mediated learning strategies. The project also addresses how demographics that are represented at lower levels in science can be aided. These groups include female students, minorities, and students with High Functioning Autism (HFA). The website portion of the project is accompanied by a paper that summarizes the research findings as well as the personal reaction of the author and how her teaching has been affected by the study. Upon completion of the project the website will be shared with school districts across Phoenix to provide teachers with access to the resources compiled in it.
ContributorsBlome, Rebecca Ellen (Author) / Marshall, Pamela (Thesis director) / Hart, Juliet (Committee member) / Division of Teacher Preparation (Contributor) / Barrett, The Honors College (Contributor)
Created2015-12
Description
Art is an inherent concept instilled in human nature, which utilizes the abilities of the creative mind to invent. Art has served many purposes in the history of mankind, including, but not limited to story telling, entertainment, decoration, exploration, propaganda, education, and therapy. The primary aim of this creative project was to explore the importance of the art, as a creative process, as a way to supplement academic endeavors. The idea derived from an observation made by myself that contemporary regard for art has been on a decline, which made me question if I also value art as much as I think I do, having done art in the past and recently added a studio art minor. I thought of ways to again incorporate art and the creative process into my life. I asked myself the question: can the creative process be used as a supplement to schoolwork in order to relieve stress? To explore this, an experiment was designed, which entailed my creation of drawings twice a week, accompanied by journal documentation for a full semester of college. Afterwards, analyses were done between the documented journal entries and the artworks to see if any relationships were apparent between various aspects of my life at the times of the drawings and the drawings themselves. Further research was also conducted in related areas of study and documented in written format, which cited and analyzed numerous journal articles, artworks, artists, and research papers. This included art therapy, art education, and the relationships between art and science. Results from the experiment indicated that art as a creative process allowed for the relief of stress by cleansing my mind from any concern or interferences, therefore offering myself a complete break and relaxation, effectively refreshing my mind and allowing me to resume schoolwork or other tasks more mentally taxing. In addition, the research also showed that art therapy could effectively utilize this palliative effect of art making to ease the problems of people in distress. The findings also concluded that art and science go hand in hand, which explains a lot of the similarities in methodologies utilized by scientists and artists. In conclusion, art is a paramount part of mankind in exercising the creative mind and is ubiquitous; we should learn to actively embrace it to enrich our lives.
ContributorsSun, Sean Yu-Hsiang (Author) / Dove-Viebahn, Aviva (Thesis director) / Chandler, Douglas (Committee member) / School of Art (Contributor) / School of Life Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2016-05
Description
Heron Lodge is the hybrid product of sciences, (pre) medicine, and the humanities throughout four years of an undergraduate degree in Medical Studies.
ContributorsLu, Emilie Joy (Author) / Dombrowski, Rosemarie (Thesis director) / Viren, Sarah (Committee member) / College of Health Solutions (Contributor) / Barrett, The Honors College (Contributor)
Created2021-05
Description
This paper analyzes the history and impact of the double-slit experiment on the world of physics. The experiment was initially created by Thomas Young in the early nineteenth century to prove that light behaved as a wave, and the experiment’s findings ended up being foundational to the classical wave theory of light. Decades later, the experiment was replicated once more with electrons instead of light and shockingly demonstrated that electrons possessed a dual nature of behavior in that they acted in some instances as particles and in others as waves. Despite numerous modifications and replications, the dual behavior of electrons has never been definitively explained. Numerous interpretations of quantum mechanics all offer their own explanations of the double-slit experiment’s results. Notably, the Copenhagen Interpretation states that an observer measuring a quantum system, such as the double-slit experiment, causes the electrons to behave classically (i.e. as a particle.) The Many Worlds Interpretation offers that multiple branching worlds come into existence to represent the physical occurrence of all probable outcomes of the double-slit experiment. In these and other interpretations, explanations of the double-slit experiment are key to proving their respective dogmas. The double-slit experiment has historically been very important to the worlds of both classical and quantum physics and is still being modified and replicated to this day. It is clear that it will continue to remain relevant even in the future of physics.
ContributorsRodriguez, Zachary M (Author) / Foy, Joseph (Thesis director) / Hines, Taylor (Committee member) / Department of Information Systems (Contributor) / Barrett, The Honors College (Contributor)
Created2021-05
Description
The goal of the first study was to characterize the Miocene arkosic conglomerate in the Goldfield Mountains to determine the paleocurrent direction and source of the cobbles. This conglomerate is tilted to the northeast and unconformably overlies Proterozoic basement. Imbrication measurements are scattered but suggest the direction of paleoflow was toward the northwest and northeast, which suggests the cobbles were sourced from the southeast and southwest. The abundance of Dripping Spring Quartzite and the presence of Barnes Conglomerate in the cobbles, suggests an Apache Group source. In addition, south-southeast of the map area, there are several rock units composed of the same material as cobbles within the arkosic conglomerate. The arkosic conglomerate was likely deposited during onset of mid-Cenozoic extension, where the resulting highlands could provide a nearby source for the cobbles. This nearby source is interpreted to be south-southeast of the study area. A second study examined the effectiveness of course reform conducted on an introductory undergraduate course sequence. Questions of this study included: (1) How does the curriculum cater to a student population with diverse goals? (2) How do reformed courses add educational value as perceived by the student? (3) How does the redesigned curriculum and the instructional strategies, as implemented, address the goals of the reform?
The curriculum addressed the goals of the reform by (1) creating more opportunities for students to gain the skills relevant to their future goals, (2) having students utilize big data to make observations, interpretations, and predictions, (3) engaging students in scientific collaboration through group work and discussion, (4) giving students the opportunity to utilize computer programs that apply across various subjects and fields (i.e. Excel, MS Word, ArcGIS), and (5) requiring students to conduct original research to solve a problem and present their results orally and in written form. These redesign efforts were successful in meeting the objectives, and majority of the student participants reported one or more of the reformed experiences were valuable to their education and future goals. An understanding of teaching methods and educational values held by undergraduate students within the School of Earth and Space Exploration can be adapted and applied across subjects.
ContributorsAccetta, Danielle (Author) / Reynolds, Stephen J (Thesis advisor) / Johnson, Julia K (Committee member) / Semken, Steven (Committee member) / Arizona State University (Publisher)
Created2021