Matching Items (154)
Description
In this dissertation I attempt to find elements of education and curricular perspective in the Qur'an. I argue that there is little research in the field of curriculum instruction that discusses the Qur'an's educational aspects and, as a result, much ignorance of the Qur'an's material that deals with education and curricular perspective in the Qur'an. Researchers may find many materials that deal with reading, memorizing, and reciting the Qur'an, along with references that deal with science and math in the Qur'an. Therefore, this dissertation answers the question: What curriculum exists within the Quran? This dissertation is divided into five chapters exploring various aspects of the curriculum. The word "curriculum" is used in one chapter to mean developing the person as a whole in all aspects of life whether spiritual, social, or mental while in the other chapter curriculum is used to refer to methods of instruction. I concluded that curriculum in the Qur'an uses different methods of instructions to develop the individual as a whole in all aspects of life while granting freedom of choice.
ContributorsRisha, Sarah (Author) / Margolis, Eric (Thesis advisor) / Fischman, Gustavo (Committee member) / Ali, Souad (Committee member) / Arizona State University (Publisher)
Created2013
Description
Legislative changes and discussions about the United States falling further and further behind other nations in science, technology, engineering, and math (STEM) achievement are growing. As they grow, STEM instruction in elementary school has earned its place as a national area of interest in education. In the case of Ivory School District, teachers are being asked to radically change their daily practices by consistently implementing inquiry-based STEM experiences in their classrooms. As such, teachers are being asked to scale a divide between the district expectations and their knowledge and experience. Many fourth grade educators are teachers who have been trained as generalists and typically do not have specific background or experience in the philosophy, instructional strategies, or content associated with STEM. Using a prototype approach, this study aims to understand how such teachers conceptualize STEM instruction and the relationship between their experience and conceptions.
ContributorsKenney, Meghan (Author) / Fischman, Gustavo (Thesis advisor) / Powers, Jeanne (Committee member) / Rasch, Katherine D (Committee member) / Arizona State University (Publisher)
Created2013
Description
Examining the elements of the hidden curriculum in theatre education allows theatre educators the opportunity to reflect on their own pedagogy and its effects on the learner. The hidden curriculum refers to the unspoken or implicit values, norms, and beliefs that are transmitted through tacit messages. When the hidden curriculum remains veiled, the impact on the learner's education and socialization process can perpetuate gender, race, and class inequalities. In order to understand how the hidden curriculum manifests itself in theatre classrooms, we have to look at schools as "agents of legitimation, organized to produce and reproduce the dominant categories, values, and social relationships necessary for the maintenance of the larger society" (Giroux, 1983, p. 72). This qualitative study examined the hidden curriculum in theatre at the secondary level and looked at theatre teachers' pedagogy in reproducing elements of the hidden curriculum. Interviews, naturalistic observation, and a researcher reflective journal were employed in the data collection process to better understand: a) the elements of hidden curriculum that appear in theatre education at the secondary level, b) how the pedagogical practices of theatre teachers support societal structures, and c) how the hidden curriculum in theatre reinforces gender, race, and social class distinctions. Data were then coded and analyzed to find emergent themes. Multiple theoretical perspectives serve as a conceptual framework for understanding the hidden curriculum, and provide a neglected perspective of the hidden curriculum in theatre education. The theatre classroom provides a unique space to view hidden curriculum and can be viewed as a unique agent of social change. Themes related to the first research question emerged as: a) privileges for older students, b) school rules, c) respect for authority, d) acceptance of repetitive tasks, and c) punctuality. Themes related to the second research question emerged as: a) practices, b) procedures, c) rules, d) relationships, and e) structures. Finally, themes related to the third question emerged as: a) reinforcement of social inequality, b) perpetuation of class structure, and c) acceptance of social destiny. The discussion looks at the functions of theatre pedagogy in the reproduction of class, inequality, and institutionalized cultural norms.
ContributorsHines, Angela R (Author) / Saldana, Johnny (Thesis advisor) / Malewski, Erik (Committee member) / Fischman, Gustavo (Committee member) / Arizona State University (Publisher)
Created2013
Description
As one of the most promising materials for high capacity electrode in next generation of lithium ion batteries, silicon has attracted a great deal of attention in recent years. Advanced characterization techniques and atomic simulations helped to depict that the lithiation/delithiation of silicon electrode involves processes including large volume change (anisotropic for the initial lithiation of crystal silicon), plastic flow or softening of material dependent on composition, electrochemically driven phase transformation between solid states, anisotropic or isotropic migration of atomic sharp interface, and mass diffusion of lithium atoms. Motivated by the promising prospect of the application and underlying interesting physics, mechanics coupled with multi-physics of silicon electrodes in lithium ion batteries is studied in this dissertation. For silicon electrodes with large size, diffusion controlled kinetics is assumed, and the coupled large deformation and mass transportation is studied. For crystal silicon with small size, interface controlled kinetics is assumed, and anisotropic interface reaction is studied, with a geometry design principle proposed. As a preliminary experimental validation, enhanced lithiation and fracture behavior of silicon pillars via atomic layer coatings and geometry design is studied, with results supporting the geometry design principle we proposed based on our simulations. Through the work documented here, a consistent description and understanding of the behavior of silicon electrode is given at continuum level and some insights for the future development of the silicon electrode are provided.
ContributorsAn, Yonghao (Author) / Jiang, Hanqing (Thesis advisor) / Chawla, Nikhilesh (Committee member) / Phelan, Patrick (Committee member) / Wang, Yinming (Committee member) / Yu, Hongyu (Committee member) / Arizona State University (Publisher)
Created2014
Description
The mechanical behavior of Pb-free solder alloys is important, since they must maintain mechanical integrity under thermomechanical fatigue, creep, and mechanical shock conditions. Mechanical shock, in particular, has become an increasing concern in the electronics industry, since electronic packages can be subjected to mechanical shock by mishandling during manufacture or by accidental dropping. In this study, the mechanical shock behavior of Sn and Sn-Ag-Cu alloys was systematically analyzed over the strain rate range 10-3 - 30 s-1 in bulk samples, and over 10-3 - 12 s-1 on the single solder joint level. More importantly, the influences of solder microstructure and intermetallic compounds (IMC) on mechanical shock resistance were quantified. A thorough microstructural characterization of Sn-rich alloys was conducted using synchrotron x-ray computed tomography. The three-dimensional morphology and distribution of contiguous phases and precipitates was analyzed. A multiscale approach was utilized to characterize Sn-rich phases on the microscale with x-ray tomography and focused ion beam tomography to characterize nanoscale precipitates. A high strain rate servohydraulic test system was developed in conjunction with a modified tensile specimen geometry and a high speed camera for quantifying deformation. The effect of microstructure and applied strain rate on the local strain and strain rate distributions were quantified using digital image correlation. Necking behavior was analyzed using a novel mirror fixture, and the triaxial stresses associated with necking were corrected using a self-consistent method to obtain the true stress-true strain constitutive behavior. Fracture mechanisms were quantified as a function of strain rate. Finally, the relationship between solder microstructure and intermetallic compound layer thickness with the mechanical shock resistance of Sn-3.8Ag-0.7Cu solder joints was characterized. It was found that at low strain rates the dynamic solder joint strength was controlled by the solder microstructure, while at high strain rates it was controlled by the IMC layer. The influences of solder microstructure and IMC layer thickness were then isolated using extended reflow or isothermal aging treatments. It was found that at large IMC layer thicknesses the trend described above does not hold true. The fracture mechanisms associated with the dynamic solder joint strength regimes were analyzed.
ContributorsYazzie, Kyle (Author) / Chawla, Nikhilesh (Thesis advisor) / Sane, Sandeep (Committee member) / Jiang, Hanqing (Committee member) / Krause, Stephen (Committee member) / Arizona State University (Publisher)
Created2012
Description
Universities have been increasingly engaged in international collaborations with peer institutions overseas. In recent years, Confucius Institutes have emerged as a new model of collaboration between American universities and Chinese universities. In an attempt to identify factors contributing to successful international university collaborations, this study used the case study method and focused on one Confucius Institute between MMU, an American University, and ZZU, a Chinese university, and intended to identify factors leading to the success of the MMU-ZZU Confucius Institute collaboration. The study investigated the MMU-ZZU Confucius Institute collaboration within the framework of the MMU-ZZU institutional partnership. Based on data collected from the institutional documents, interviews, site visits and news reports, this study examined the experiences and perceptions of the university's stakeholders involved in creating and sustaining this particular Confucius Institute, including stakeholders at the program level, at the college level, and at the institutional level both at MMU and ZZU. Using the glonacal agency heuristics framework, the MMU-ZZU Confucius Institute collaboration was a result of joint forces of stakeholders at the program level, at the college level, and at the institutional level from ZZU and MMU. Stakeholders, no matter what level they are and which institution they are affiliated with, had to navigate through the significant differences between them to develop synergy to be successful. Synergy, including vertical synergy developed among stakeholders within each institution and horizontal synergy developed among stakeholders between institutions, turned out to be critical to the success of the MMU-ZZU CI. The study concluded that synergy in leadership, organizational contexts, stakeholders' resources, and the synergy in the MMU-ZZU Confucius Institute collaboration and the MMU-ZZU institutional partnership, led to the success of the MMU-ZZU Confucius Institute collaboration.
ContributorsLi, Mengying (Author) / De Los Santos Jr., Alfredo G (Thesis advisor) / Wiley, Terrence (Thesis advisor) / Fischman, Gustavo (Committee member) / Arizona State University (Publisher)
Created2012
Description
The presence of language minority students in American schools is a growing phenomenon in present-day times. In the year 2008, almost 11 million school-age children spoke a language other than English at home. Educational language policy is largely influenced by the attitudes that society holds regarding the presence of language minority speakers in the community. One of the sources of these attitudes is the written press. This research aimed at identifying and analyzing the ideologies that newspapers display in connection with language minority speakers. The underlying assumption of the study was that the English language occupies a dominant position in society, thus creating a power struggle in which speakers of other languages are disenfranchised. Using critical theory as the theoretical framework enabled the study to identify and oppose the ideologies that may reproduce and perpetuate social inequalities. The methodological approach used was critical discourse analysis (CDA) which aligns with the main tenets of critical theory, among them the need to uncover hidden ideologies. The analysis of articles from English-language (The Arizona Republic and the East Valley Tribune) and Spanish-language (La Prensa Hispana) newspapers allowed for the identification of the ideologies of the written press in connection to two main hypothetical constructs: education and immigration. The analysis of the results revealed that the three newspapers of the study held specific ideologies on issues related to the education of language minority students and immigration. Whereas the East Valley Tribune showed an overarching ideology connected to the opposition of immigrant students in schools, the hegemonic position of theEnglish language, and a belligerent stance toward the immigrant community, The Arizona Republic showed a favorable attitude to both English Language Learners and immigrants, based on reasons mainly related to the economic interest of the state of Arizona. La Prensa Hispana, on the other hand, showed ideologies favorable to the immigrant community based on humanitarianism. In summary, the results confirm that newspapers hold specific ideologies and that these ideologies are reflected in the content and the manner of their information to the public.
ContributorsGonzález-Carriedo, Ricardo (Author) / Ovando, Carlos (Thesis advisor) / Wiley, Terrence (Thesis advisor) / Fischman, Gustavo (Committee member) / Mccarty, Teresa (Committee member) / Arizona State University (Publisher)
Created2012
Description
Pb-free solder joints are commonly used as interconnects in semiconductor packaging. One of the major defects affecting the mechanical performance of solder joints are reflow pores that form during processing. These pores exhibit significant variability in size and distribution, and understanding the effects of pore geometry on failure is an important reliability concern. In this thesis, the pore microstructures of solder joint samples and the localized plastic deformation around individual pores was characterized in 3D using lab scale X-ray Microtomography. To observe the deformation of a solder joint in 3D, a solder joint was imaged with Microtomography after reflow and then deformed in shear in several loading steps with additional tomography data taken between each. The 3D tomography datasets were then segmented using the 3D Livewire technique into regions corresponding to solder and pores, and used to generate 3D models of the joint at each strain value using Mimics software. The extent of deformation of individual pores in the joint as a function of strain was quantified using sphericity measurements, and correlated with the observed cracking in the joint. In addition, the error inherent in the data acquisition and 3D modeling process was also quantified. The progression of damage observed with X-ray Microtomography was then used to validate the deformation and failure predicted by a Finite Element (FE) simulation. The FE model was based on the as-reflowed tomography data, and incorporated a ductile damage failure model to simulate fracture. Using the measured sphericity change and cracking information obtained from the tomography data, the FE model is shown to correctly capture the broad plastic deformation and strain localization seen in the actual joint, as well as the crack propagation. Lastly, Digital Image Correlation was investigated as a method of obtaining improved local strain measurements in 3D. This technique measures the displacement of the inherent microstructural features of the joint, and can give localized strain measurements that can be directly comparable to that predicted by modeling. The technique is demonstrated in 2D on Pb-Sn solder, and example 3D data is presented for future analysis.
ContributorsPadilla, Erick (Author) / Chawla, Nikhilesh (Thesis advisor) / Alford, Terry (Committee member) / Krause, Stephen (Committee member) / Arizona State University (Publisher)
Created2012
Description
ABSTRACT High numbers of dropouts can be found throughout the country, but research has shown the problem to be most prevalent in minority communities. Although the majority of dropouts were Anglo, the highest event dropout rates were found among American Indians, Hispanics and African Americans. This descriptive study investigated how students negotiate school structure, social supports, and cultural identity to gain an insider or "emic" perspective on youth decision-making regarding whether to drop out or remain in school. Research was conducted in a suburban school district with a high school population of over 10,000 students in grades 9 through 12. Student selection was based on criteria developed through an analysis of district data of students that had dropped out of school over a three-year period from the 2006-2007 to 2008-2009 school years. In-depth semi-structured interviews were conducted with seven participants of high school age. These participants were placed in one of three sample groups that fit the dropout profile. These groups were (1) students currently attending high school, (2) students who dropped out prior to completing graduation requirements, and (3) students who had graduated. The findings in this study will benefit the educational community as it relates to K-12 education and students leaving school (dropping out). Educators and administrators will be able to evaluate the findings of the study to review current practices and policies within their organization. The data will also give administrators the opportunity to develop and implement programs that can assist students in staying in school.
ContributorsGilbert, Craig (Author) / Kozleski, Elizabeth B. (Thesis advisor) / Fischman, Gustavo (Committee member) / Deprez, Suzie (Committee member) / Arizona State University (Publisher)
Created2012
Description
This report will review the mechanical and microstructural properties of the refractory element rhenium (Re) deposited using Laser Additive Manufacturing (LAM). With useable structural strength over 2200 °C, existing applications up to 2760 °C, very high strength, ductility and chemical resistance, interest in Re is understandable. This study includes data about tensile properties including tensile data up to 1925 °C, fracture modes, fatigue and microstructure including deformation systems and potential applications of that information. The bulk mechanical test data will be correlated with nanoindentation and crystallographic examination. LAM properties are compared to the existing properties found in the literature for other manufacturing processes. The literature indicates that Re has three significant slip systems but also twins as part of its deformation mechanisms. While it follows the hcp metal characteristics for deformation, it has interesting and valuable extremes such as high work hardening, potentially high strength, excellent wear resistance and superior elevated temperature strength. These characteristics are discussed in detail.
ContributorsAdams, Robbie (Author) / Chawla, Nikhilesh (Thesis advisor) / Adams, James (Committee member) / Krause, Stephen (Committee member) / Arizona State University (Publisher)
Created2012