Global ETD Search

21	Evidencias de validez para la escala informatizada de actitudes hacia la estadística ESATS Medeiros Vendramini, Claudette Maria, Moreira da Silva, Flávia Cristina 27 August 2014 (has links) This study aimed to verify the validity evidences of the electronic scale of attitudes towards statistics eSATSportuguês through Rasch model. A sample of 137 Brazilian students, selected for convenience, participated in this study. They were aged 20-55 (M=28.71; DP=7.77), 79.6% female, enrolled in the last semester from graduation courses of a private university in São Paulo state, and had already attended a Statistics subject. The participants answered the 28-item, 7-point Likert-type scale, in computer laboratories. The results indicated a good fit of the items to Rasch model, and the scale’s good psychometric properties, making it a good instrument to measure the construct attitude. The sample’s average attitude towards statistics was more positive rather than negative. / Este estudo objetivou verificar evidências de validade da Escala Informatizada de Atitudes frente à Estatística eSATSportuguês, via modelo de Rasch. Participaram 137 universitários brasileiros, escolhidos por conveniência, com idades de 20 a 55 anos (M=28.71; DP=7.77), 79,6% mulheres, matriculados nos últimos semestres de cursos de graduação de uma universidade particular do interior do estado de São Paulo, que já haviam cursado a disciplina Estatística. Os participantes responderam a escala eSATSportuguês, com 28 itens do tipo Likert de 7 pontos, em laboratórios de informática. Os resultados indicaram bom ajuste dos itens ao modelo de Rasch e boas propriedades psicométricas, podendo ser utilizado para mensurar o construto atitude. A amostra apresentou atitude média mais positiva que negativa em relação à Estatística. Psicometria Estatística Escala informatizada Psychometrics Statistics Education Electronic Instruments
22	Ion probe measurement of oxygen self-diffusion in Al2O3. Reed, David John January 1977 (has links) Thesis. 1977. Sc.D.--Massachusetts Institute of Technology. Dept. of Materials Science and Engineering. / MICROFICHE COPY AVAILABLE IN ARCHIES AND SCIENCE. / Vita. / Includes bibliographical references. / Sc.D. Materials Science and Engineering Aluminum oxide Diffusion Probes (Electronic instruments)
23	MUSIC THERAPISTS’ PERCEPTIONS AND PRACTICES REGARDING MUSICAL AUTHENTICITY IN MUSIC THERAPY PRACTICE Veblen, Nora Bryant 01 January 2018 (has links) Music therapists are expected to provide live music for clients with diverse preferences, yet these therapists face many barriers preventing them from recreating client-preferred music in a way that adheres to the expectations of the genre, or with “musical authenticity.” The purpose of this study was to investigate music therapists’ perceptions and practices regarding musical authenticity. Survey responses (n = 904) indicated that music therapists highly value musical authenticity, but a major theme in the qualitative data revealed they often balance its importance with other factors. Descriptive survey data and qualitative themes revealed lack of training in functional musicianship and electronic technology as major barriers to musical authenticity. A major qualitative theme regarding therapists’ practices was the use of collaboration with clients and creative solutions. Most participants indicated use of non-electronic strategies and reported they had not used electronic technology to increase musical authenticity. Descriptive survey data and qualitative themes revealed frequent and effective use of recorded music. Finally, chi-square analyses revealed significant relationships between age and use of technology and iPad and between gender and use of technology. Music therapists would benefit from additional training, more research on authenticity, and music therapy specific guidelines for using music authentically. Musical Authenticity Authenticity Technology iPad Electronic Instruments Music Therapy
24	Fiber-optic probe and bulk-optics Spectral Domain Optical Coherence tomography systems for in vivo cochlear mechanics measurements Lin, Nathan Ching January 2019 (has links) Acquiring the motions of the inner ear sensory tissues provides insight to how the cochlea works. For this purpose, Spectral Domain Optical Coherence Tomography (SDOCT) is an ideal tool as it has a penetration depth of several millimeters. SDOCT can not only image inside the cochlear partition, but also measure the sample structures’ simultaneous displacements. We customized a commercial Spectral Domain Optical Coherence Tomography system for such functions and detailed the software and hardware steps so this powerful system could be more accessible to auditory researchers. The cochlea is surrounded by bones and tissues, and damage to it would make it passive. For this reason, cochlear vibrometry measuring locations have been limited to either the basal or apical regions. That is why I fabricated a two-dimensional scanning SDOCT-based probe, to access more cochlear locations through a small hand-drilled hole. What is exciting about the probe is that an electrode can be attached to its side to acquire spatially and temporally coincident voltage and displacement data. This would help us better understand the cochlear mechano-electrical feedback process. Lastly, I investigated how the SDPM-reported displacement could be influenced by its neighboring signals and demonstrated this signal competition phenomenon experimentally and theoretically. Electrical engineering Cochlea Optical coherence tomography Probes (Electronic instruments)
25	A Novel Sensor to Monitor Surface Charge Interactions: The Optically Stimulated Contact Potential Difference Probe Mess, Francis McCarthy 17 February 2006 (has links) This study addresses the development of a sensor to monitor chemical adsorption and charge transfer processes on a surface using a contact potential difference probe (CPD). The current investigation is an outgrowth of ongoing research on non-vibrating CPD probes (nvCPD) which led to the recent development of a novel measurement technique utilizing optical stimulation: optically stimulated CPD (osCPD). Primary outcomes of this thesis are the theoretical modeling, fabrication and demonstration of a functional osCPD sensor. The research also involved significant engineering and experimentation in the design, development, and application of this sensor to oil condition monitoring. This technique measures dielectric and chemical properties of a fluid at the interface between the fluid and a semiconductor substrate. Chopped visible light is used to stimulate the rear surface of a semiconductor substrate, and a CPD probe measures the work function response of the semiconductor on the front surface of the substrate. The work function response is influenced by the nature and quantity of adsorbed species on the top surface, allowing the probe to detect changes in chemical composition at the substrate/fluid interface. An analytical model is developed that relates the osCPD sensor output signal to the chemical and dielectric properties of the oil sample, as well as to the geometry, composition, and control inputs of the silicon substrate and test fixture. In this investigation, the osCPD sensor was used to evaluate dielectric and chemical properties of commercially available engine oil. Oil samples were intentionally degraded through thermal aging (oxidation) and through addition of known contaminants. The osCPD sensor shows good sensitivity to depletion of antioxidants in the oil, as well as to the presence of ferric chloride, an oil-soluble salt typically used to calibrate laboratory test equipment. Kelvin probe Volta effect
26	Vibrating Kelvin Probe Measurements of a Silicon Surface with the Underside Exposed to Light Dukic, Megan Marie 24 August 2007 (has links) This thesis addresses the use of a vibrating Kelvin probe to monitor the change in the front surface potential of a silicon wafer while the rear surface is illuminated with monochromatic, visible light. Two tests were run to verify the change in surface potential. One test increased the intensity of the light and the other increased the wavelength while recording the front surface potential. The change in the surface potential for a range of intensities of incident light was recorded and analyzed. The results show that the change in surface potential increased with increasing intensity. For each wafer, the smallest change in surface potential occurred at the lowest intensity, 3.77 mW. In the same respect, the largest change in surface potential occurred at the highest intensity, 17.8 mW. For all wafers, the change in surface potential ranged from approximately 8 mV at 3.77 mW to approximately 80 mV at 17.8 mW. The change in the surface potential for a range of wavelengths of incident light was also recorded and analyzed. The results showed that the change in surface potential formed a skewed bell curve with increasing wavelength of incident light. For each wafer, the largest change in surface potential occurred at mid-range wavelengths, between 600 nm and 700 nm. The smallest change in surface potential occurred at 450 nm, the shortest wavelength, and 800 nm, the longest wavelength. For all wafers, the change in surface potential ranged from approximately 8 mV at 800 nm to approximately 165 mV at 700 nm. A model based on excess electron diffusion within the silicon wafer was used to predict material properties. After curve fitting the model with experimental results, an excess electron lifetime of ôN = 17 µs and surface recombination rates of sFRONT = sREAR = 18,000cm/s were predicted. These values suggest poor silicon wafer quality relative to commercial silicon devices. Regardless of the quality, the results show that the front surface potential of a silicon wafer is affected by incident light on the rear surface. The quantitative effect of the light is dependent on the properties of the light and the material properties of the silicon wafer. Silicon Photogeneration Kelvin probe Probes (Electronic instruments) Semiconductor wafers
27	Experiments in solid state electronics using high temperature gas atmospheres Graham, Harl Goronway, 1929- January 1967 (has links) No description available. Solid state electronics. Electronic instruments -- Testing.
28	Non-vibrating Kelvin probe detection of nanometer scale lubricant films on a magnetic disk surface Korach, Chad S. 08 1900 (has links) No description available. Probes (Electronic instruments) Lubrication and lubricants Magnetic disks Rheology
29	The design and development of a high precision resonator based tactile sensitive probe Cole, Marina January 1998 (has links) This PhD thesis describes the design and development of a new resonator based tactile sensitive probe. This new sensor was proposed because of the increasing need for high-sensitivity, high-speed touch-sensitive probes in coordinate metrology due to the ever-growing demand for precision and reliability at sub-micron level accuracy. Extensive background research on the current development of touch trigger probes has shown that designs based on the resonator principle have potential for minimising lobing effects and the false triggering associated with most commercially available probes. Resonant based sensors have been investigated over many decades and used very successfully in a wide range of applications. However their commercial exploitation in the field of precision engineering has not been particularly successful. One reason for such slow progress is the complexity of the interaction between oscillatory probes and typical engineering surfaces in less than ideal environments. The main aim of this research was to design a high precision resonator based tactile sensitive probe and to investigate the causes of parametric changes on resonant touch sensors both before and during contact with a variety of engineering surfaces in order to achieve a better understanding of contact mechanisms. The four main objectives were: preliminary design and characterisation of a resonator based touch sensor; development of the mathematical model which predicts parametric changes on a resonant probe considering both near surface effects and mechanical contact; experimental verification of mathematical predictions; and an investigation into possible commercial exploitation of the new probe in precision applications. A novel resonator based tactile sensor that utilises the piezoelectric effect was designed and characterised. The design exploits the fact that when a stiff element (probe) oscillating near or at its resonance frequency comes into contact with the surface of another body (workpiece), the frequency of vibrational resonance of the probe changes depending on the properties of the workpiece. The phase-locked loop frequency detection technique was employed to track changes in frequency as well as in the phase of the resonant system. The initial characterisation of the touch sensor has shown a sensitivity to contact of less then 4 mN, a high triggering rate and good repeatability. The potential for application in measuring material properties was also demonstrated. As a result of the characterisation a comprehensive mathematical model was developed. This novel model was based on Hertzian contact mechanics, Rayleigh's approximate energy method and work carried out by Smith and Chetwynd on the analysis of elastic contact of a sphere on a flat. The model predicts that phase and frequency shift of a resonator based sensor can either increase or decrease depending on the dominant phenomena (added mass, stiffness and damping) in the contact region. Observation of dynamic characteristics at either side of the resonant frequency can be used to identify the predominant effect. In order to confirm the model experimentally, another prototype probe was developed. The new sensor was engaged in observations of contact mechanisms with engineering surfaces. The experimental results have showed favourable agreement with the developed mathematical model. This enabled a better understanding of contact phenomena uncovering possibilities for the application of resonant sensors in many other areas. The research has shown that the new probe has potential in contact measurements where it can be used for the quantitative assessment of the physical properties of different materials (modulus of elasticity, density and energy dissipation) and also in non-destructive hardness testing. It was shown that the device can be successfully used in coordinate metrology as a touch trigger probe and as a 3D vector probe. Finally, applications can also be found in surface topography as a surface characterisation instrument. It is intended that the research described in this thesis will make an important contribution in the area of resonator based probes, providing a better understanding of the causes of parametric changes on the oscillatory sensor during contact with the object being measured. Consequently, this will enable a more effective exploitation of resonant probes for a broad range of precision applications. 621.381045
30	Laboratory calibration of soil moisture, resistivity, and temperature probe-capacitance probe Adu-Gyamfi, Kwame. January 2001 (has links) Thesis (M.S.)--Ohio University, November, 2001. / Title from PDF t.p.

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