23 research outputs found

    La competencia "aprender a aprender" en un contexto educativo de ingeniería

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    The objective of this thesis was to establish bases to characterize "learn to learn" competence and to promote it in an engineering educational context. It adopted the vision of educational psychology that establishes self-regulation in learning as the operative manifestation of this competence. The research was developed in three phases: obtaining a psychometric tool to characterize self-regulation in learning; the characterization of self-regulation in learning of the students; and, based on the results of the characterization, an educational intervention was designed, implemented and evaluated to facilitate that students use the learning strategy of selection and organization of the information . In the first phase in order to obtain the psychometric tool was translated, adapted and validated the Motivated Strategies for Learning Questionnaire - MSLQ following the guidelines of the International Test Commission (ITC). The result was the MSLQ-Colombia. With the participation of 1218 students and 12 engineering professors, the psychometric properties of MSLQ-Colombia were studied: construct validity, content validity, external validity and reliability; the MSLQ-Colombia was valid and reliable. In the characterization, second phase, the self-regulation of the motivation and the use of learning strategies of 1268 students were evaluated. It was found that students self-regulate their motivation highly: beliefs about learning control and task value were the aspects most self-regulated, while the learning orientation toward extrinsic goals and anxiety in the assessment were the least self-regulated. It was found that students used learning strategies in a non-uniform way, there were strategies frequently used and others occasionally used. The three strategies most used were the monitoring of learning, control of the place of study and effort regulation; the strategies least used were time management and selection and organization of information. The results of this phase also allowed to propose a new hypothesis to investigate the self-regulation in the learning: the self-regulation of some aspects of the motivation and the use of some strategies depend on the subject that the students are coursing; on the contrary, other aspects of motivation and other learning strategies do not depend on the subject. Educational intervention, the third phase, consisted in offering instruction at students on summarizing technique to facilitate them to select and organize the information of engineering technical texts; in addition, students practiced the production of abstracts and the teachers provided them feedback on the quality of these abstracts. The effects of the educational intervention were explored with a quasi-experimental investigation (experimental group: 177 students, control group: 65 students) that collected quantitative and qualitative evidences. The educational intervention facilitated that students increase positive and significantly, in a statistical sense, the writing of abstracts to select and organize the information; the quality of the abstracts also significantly improved. The intervention also impacted the use of strategies such as metacognition and resource management as time management. The results of this thesis provide solutions to the current problems of the "learn to learn" competence: practical contributions such as the MSLQ-Colombia and the didactic sequence of the educational intervention, empirical contributions such as the psychometric indexes of MSLQ-Colombia, the characterization of the self-regulation in learning of students and the impacts of educational intervention. Finally, this thesis sets a new integrative approach (hypothesis) of the previous ones about the research on the self-regulation in learning.El objetivo de esta Tesis fue establecer bases para caracterizar la competencia "aprender a aprender" y potenciarla en un contexto educativo de ingeniería. Se adoptó la visión de la psicología educativa que instaura la autorregulación en el aprendizaje como la manifestación operativa de esta competencia. La investigación se desarrolló en tres fases: obtención de una herramienta psicométrica para caracterizar la autorregulación en el aprendizaje; caracterización de la autorregulación en el aprendizaje de los estudiantes; y, a partir de los resultados de la caracterización, se diseñó, implementó y evaluó una intervención educativa para facilitar a los estudiantes usar la estrategia de aprendizaje selección y organización de la información. En la primera fase para obtener la herramienta psicométrica se tradujo, adaptó y validó el Motivated Strategies for Learning Questionnaire - MSLQ siguiendo las directrices de la International Test Commission (ITC). El resultado fue el MSLQ-Colombia. Con la participación de 1218 estudiantes y 12 profesores de ingeniería se estudiaron las propiedades psicométricas del MSLQ-Colombia: validez de constructo, validez de contenido, validez externa y confiabilidad; el MSLQ-Colombia resultó válido y confiable. En la caracterización, segunda fase, se valoró la autorregulación de la motivación y el uso de estrategias de aprendizaje de 1268 estudiantes. Se encontró que los estudiantes autorregulaban altamente su motivación: las creencias de control del aprendizaje y la valoración de la tarea fueron los aspectos que más autorregularon, mientras que la orientación del aprendizaje hacia metas extrínsecas y la ansiedad en la evaluación fueron los menos autorregulados. Se halló que los estudiantes usaban estrategias de aprendizaje de manera no uniforme, hubo estrategias de uso frecuente y otras de uso ocasional. Las tres estrategias más usadas fueron el monitoreo del aprendizaje, control del lugar de estudio y regulación del esfuerzo; las menos usadas fueron la gestión del tiempo y selección y organización de la información. Los resultados de esta fase también permitieron plantear una nueva hipótesis para investigar la autorregulación en el aprendizaje: la autorregulación de algunos aspectos de la motivación y el uso de algunas estrategias dependen de la asignatura que los estudiantes están cursando; por el contrario, otros aspectos de la motivación y otras estrategias de aprendizaje no dependen de la asignatura. La intervención educativa, tercera fase, consistió en ofrecer a los estudiantes instrucción sobre la técnica de resumir para facilitarles seleccionar y organizar la información de textos técnicos de ingeniería; asimismo, los estudiantes elaboraron resúmenes y se les brindó realimentación sobre la calidad de dichos resúmenes. Los efectos de la intervención educativa se exploraron con una investigación cuasi-experimental (grupo experimental: 177 estudiantes, grupo control: 65 estudiantes) que recolectó evidencias cuantitativas y cualitativas. La intervención educativa facilitó que los estudiantes incrementaran positiva y significativamente, en sentido estadístico, la escritura de resúmenes para seleccionar y organizar la información; los estudiantes también mejoraron significativamente la calidad de los resúmenes. La intervención también impactó el uso de estrategias como la metacognición y la administración de recursos como gestión del tiempo. Los resultados de esta Tesis aportan soluciones a las problemáticas actuales de la competencia "aprender a aprender": contribuciones prácticas como el MSLQ-Colombia y la secuencia didáctica de la intervención educativa; contribuciones empíricas como los índices psicométricos del MSLQ-Colombia, la caracterización de la autorregulación del aprendizaje de los estudiantes y los impactos de la intervención educativa. Por último, esta Tesis establece un nuevo enfoque (hipótesis) integrador de los anteriores en la investigación de la autorregulación del aprendizaje

    Strain Tuning in Graded SiGe on Insulator: Interplay between Local Concentration and Nonmonotonic Lattice Evolution after Ge Condensation

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    Germanium condensation has proven to be a reliable route for obtaining smoothly graded composition SiGe layers with good reproducibility and reduced defect density. The process is known as a crucial tool to induce well-defined strain on Si or SiGe layers with potential use in semiconductor devices. In this work, we show that starting from a low concentration Si0.92Ge0.08 layer grown on top of a crystalline Si(001) on SOI substrates, we can reach desirable concentration with a nonmonotonic interplay on in-plane and out-of-plane strain. The Ge concentration is evaluated by a combination of ultralow energy secondary ion mass spectroscopy (ULE-SIMS) and synchrotron X-ray measurements (diffraction and reflectivity). After the evaluation of Ge content, the strain-sensitive process of rolling up tubes from the flat layers is used and combined with X-ray diffraction to provide a concise scenario of the strain evolution along an in-growth oxidation series, pointing out the conditions that maximize strain, as well as its fading, as the Ge content rises

    Adhesive and Reinforcing Properties of Soluble Cellulose: A Repulpable Adhesive for Wet and Dry Cellulosic Substrates

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    This work reports, for the first time, the excellent performance of an aqueous alkaline solution of cellulose as an adhesive for wet and dry cellulosic substrates. Uniaxial tensile tests of filter paper and sulfite writing paper strips bonded with this adhesive (5% cellulose and 7% NaOH aqueous solution) show that failure never occurs in the joints but always in the pristine substrate areas, except in butt joint samples prepared with sulfite paper. Tensile test also shows that paper impregnated with cellulose solution is stronger than the original substrate. X-ray microtomography and scanning electron microscopy reveal that dissolved cellulose fills the gaps between paper fibers, providing a morphological evidence for the mechanical interlocking adhesion mechanism, while scanning probe techniques provide a sharp view of different domains in the joints. Additionally, bonded paper is easily reconverted to pulp, which facilitates paper reprocessability, solving a well-known industrial problem related to deposition of adhesive aggregates (stickies) on the production equipment

    Self-Propelled Nanotools

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    We describe nanoscale tools in the form of autonomous and remotely guided catalytically self-propelled InGaAs/GaAs/(Cr)Pt tubes. These rolled-up tubes with diameters in the range of 280–600 nm move in hydrogen peroxide solutions with speeds as high as 180 μm s<sup>–1</sup>. The effective transfer of chemical energy to translational motion has allowed these tubes to perform useful tasks such as transport of cargo. Furthermore, we observed that, while cylindrically rolled-up tubes move in a straight line, asymmetrically rolled-up tubes move in a corkscrew-like trajectory, allowing these tubes to drill and embed themselves into biomaterials. Our observations suggest that shape and asymmetry can be utilized to direct the motion of catalytic nanotubes and enable mechanized functions at the nanoscale

    Self-Propelled Nanotools

    No full text
    We describe nanoscale tools in the form of autonomous and remotely guided catalytically self-propelled InGaAs/GaAs/(Cr)Pt tubes. These rolled-up tubes with diameters in the range of 280–600 nm move in hydrogen peroxide solutions with speeds as high as 180 μm s<sup>–1</sup>. The effective transfer of chemical energy to translational motion has allowed these tubes to perform useful tasks such as transport of cargo. Furthermore, we observed that, while cylindrically rolled-up tubes move in a straight line, asymmetrically rolled-up tubes move in a corkscrew-like trajectory, allowing these tubes to drill and embed themselves into biomaterials. Our observations suggest that shape and asymmetry can be utilized to direct the motion of catalytic nanotubes and enable mechanized functions at the nanoscale

    Self-Propelled Nanotools

    No full text
    We describe nanoscale tools in the form of autonomous and remotely guided catalytically self-propelled InGaAs/GaAs/(Cr)Pt tubes. These rolled-up tubes with diameters in the range of 280–600 nm move in hydrogen peroxide solutions with speeds as high as 180 μm s<sup>–1</sup>. The effective transfer of chemical energy to translational motion has allowed these tubes to perform useful tasks such as transport of cargo. Furthermore, we observed that, while cylindrically rolled-up tubes move in a straight line, asymmetrically rolled-up tubes move in a corkscrew-like trajectory, allowing these tubes to drill and embed themselves into biomaterials. Our observations suggest that shape and asymmetry can be utilized to direct the motion of catalytic nanotubes and enable mechanized functions at the nanoscale

    Self-Propelled Nanotools

    No full text
    We describe nanoscale tools in the form of autonomous and remotely guided catalytically self-propelled InGaAs/GaAs/(Cr)Pt tubes. These rolled-up tubes with diameters in the range of 280–600 nm move in hydrogen peroxide solutions with speeds as high as 180 μm s<sup>–1</sup>. The effective transfer of chemical energy to translational motion has allowed these tubes to perform useful tasks such as transport of cargo. Furthermore, we observed that, while cylindrically rolled-up tubes move in a straight line, asymmetrically rolled-up tubes move in a corkscrew-like trajectory, allowing these tubes to drill and embed themselves into biomaterials. Our observations suggest that shape and asymmetry can be utilized to direct the motion of catalytic nanotubes and enable mechanized functions at the nanoscale

    Self-Propelled Nanotools

    No full text
    We describe nanoscale tools in the form of autonomous and remotely guided catalytically self-propelled InGaAs/GaAs/(Cr)Pt tubes. These rolled-up tubes with diameters in the range of 280–600 nm move in hydrogen peroxide solutions with speeds as high as 180 μm s<sup>–1</sup>. The effective transfer of chemical energy to translational motion has allowed these tubes to perform useful tasks such as transport of cargo. Furthermore, we observed that, while cylindrically rolled-up tubes move in a straight line, asymmetrically rolled-up tubes move in a corkscrew-like trajectory, allowing these tubes to drill and embed themselves into biomaterials. Our observations suggest that shape and asymmetry can be utilized to direct the motion of catalytic nanotubes and enable mechanized functions at the nanoscale

    Self-Propelled Nanotools

    No full text
    We describe nanoscale tools in the form of autonomous and remotely guided catalytically self-propelled InGaAs/GaAs/(Cr)Pt tubes. These rolled-up tubes with diameters in the range of 280–600 nm move in hydrogen peroxide solutions with speeds as high as 180 μm s<sup>–1</sup>. The effective transfer of chemical energy to translational motion has allowed these tubes to perform useful tasks such as transport of cargo. Furthermore, we observed that, while cylindrically rolled-up tubes move in a straight line, asymmetrically rolled-up tubes move in a corkscrew-like trajectory, allowing these tubes to drill and embed themselves into biomaterials. Our observations suggest that shape and asymmetry can be utilized to direct the motion of catalytic nanotubes and enable mechanized functions at the nanoscale

    Self-Propelled Nanotools

    No full text
    We describe nanoscale tools in the form of autonomous and remotely guided catalytically self-propelled InGaAs/GaAs/(Cr)Pt tubes. These rolled-up tubes with diameters in the range of 280–600 nm move in hydrogen peroxide solutions with speeds as high as 180 μm s<sup>–1</sup>. The effective transfer of chemical energy to translational motion has allowed these tubes to perform useful tasks such as transport of cargo. Furthermore, we observed that, while cylindrically rolled-up tubes move in a straight line, asymmetrically rolled-up tubes move in a corkscrew-like trajectory, allowing these tubes to drill and embed themselves into biomaterials. Our observations suggest that shape and asymmetry can be utilized to direct the motion of catalytic nanotubes and enable mechanized functions at the nanoscale
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