96 research outputs found

    Question Utilization in Solution-Focused Brief Therapy: A Recursive Frame Analysis of Insoo Kim Berg\u27’s Solution Tak

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    Recursive frame analysis (RFA) was used to conduct a single case investigationif Insoo Kim Berg\u27s question utilization talk in a solution-focused brief therapy (SFBT) session. Due to the lack of process research that explores how SFBT questions facilitate change, the author investigated how Berg’s solution language influenced a client to respond in session. The purpose of this case study was to explore how SFBT questions served as interventions to facilitate change. The research question for this study was twofold: (a) how does Berg’s language influence conversation and (b) how is the client influenced by Berg’s questions in a therapeutic context? The findings suggest that Berg’s questions serve as interventions for change as noted by patterns in the therapeutic conversation

    Question Utilization in Solution-Focused Brief Therapy: A Recursive Frame Analysis of Insoo Kim Berg\u27s Solution Talk

    No full text
    Recursive frame analysis (RFA) was used to conduct a single case investigation of Insoo Kim Berg\u27s question utilization talk in a solution-focused brief therapy (SFBT) session. Due to the lack of process research that explores how SFBT questions facilitate change, the author investigated how Berg\u27s solution language influenced a client to respond in session. The purpose of this case study was to explore how SFBT questions served as interventions to facilitate change. The research question for this study was twofold: (a) how does Berg\u27s language influence conversation and (b) how is the client influenced by Berg\u27s questions in a therapeutic context? The findings suggest that Berg\u27s questions serve as interventions for change as noted by patterns in the therapeutic conversation

    MSL DAN Science Investigation: Background from MMRTG

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    No abstract availabl

    Neutron and LIBS data behind figures in Gabriel et al. (2022). On an extensive late hydrologic event in Gale crater as indicated by water-rich fracture halos. JGR-Planets.

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    This repository contains datasets that allow for the reproduction of certain figures and analysis by Gabriel et al. (2022), a peer-reviewed journal article accepted in the Journal of Geophysical Research: Planets. Below are brief descriptions of the datasets. File: TGabriel_JGR-P_DAN_Passive_NoMobility_Raw_Data_sol350-400_FigureS10.txt Description: These are raw neutron counts from the thermal and epithermal neutron detectors as part of the Dynamic Albedo of Neutrons instrument. Only data from rover stops for sols 350 to 400 are included. Data from rover stops allows them to be readily colocated rover localization data, which includes 'site' and 'drive' numbers that are specific to each stop. File: TGabriel_JGR-P_DAN_Passive_NoMobility_Raw_Data_sol900-1500_Figure5.txt Description: This is similar data to the product above, however for the sol range 900 to 1500. File: TGabriel_JGR-P_DAN_Passive_withMobility_Raw_Data_sol350-420_FigureS13.txt Description: This is similar data to the products above, however the dataset includes passive neutron count rates acquired while the rover was traversing, smoothed over 3 meters of lateral distance traveled. This dataset allows for the analysis of environments that may be present between rover stops, and thus not detected in 'no mobility' datasets. TGabriel_JGR-P_Kukri_CCAM_MajorOxideComposition_FigureS19TableS1.xlsx Description: This is the result of the Major Oxide Quantification pipeline developed by the ChemCam instrument team (sPDL Tool v2.0, 25 July 2015) as run by William Rapin. Additional H quantification in Figure S19 of Gabriel et al. (2022) is not included in this dataset, but is provided in the manuscript

    MSL DAN Science Investigation: Physical Simulation of DAN

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    The main objective of the proposed investigation is to study the characteristics (i.e., hydrogen content, soil composition, layer-structure, etc.) of sub-surface and the surface radiation (neutron in particular) environment

    Radiation Environments of Outer Planets

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    Spacecraft Environment Interactions

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    As electronic components have grown smaller in size and power and have increased in complexity, their enhanced sensitivity to the space radiation environment and its effects has become a major source of concern for the spacecraft engineer. As a result, the description of the sources of space radiation, the determination of how that radiation propagates through material, and, ultimately, how radiation affects specific circuit components are primary considerations in the design of modern spacecraft. The objective of this paper will be to address the first 2 aspects of the radiation problem. This will be accomplished by first reviewing the natural and man-made space radiation environments. These environments include both the particulate and, where applicable, the electromagnetic (i.e., photon) environment. As the "ambient" environment is typically only relevant to the outer surface of a space vehicle, it will be necessary to treat the propagation of the external environment through the complex surrounding structures to the point inside the spacecraft where knowledge of the internal radiation environment is required. While it will not be possible to treat in detail all aspects of the problem of the radiation environment within a spacecraft, by dividing the problem into these parts-external environment, propagation, and internal environment-a basis for understanding the practical process of protecting a spacecraft from radiation will be established. The consequences of this environment will be discussed by the other presenters at this seminar

    Analysis on the effect of operating conditions on electrochemical conversion of carbon dioxide to formic acid

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    Electrochemical reduction of CO2 to HCOOH was performed on a Sn electrode using a proton exchange membrane-embedded electrolysis cell. The effects of reaction conditions such as catholyte and anolyte types, reduction potential, catholyte pH, and reaction temperature on the amount of HCOOH and its faradaic efficiency were investigated. Four different electrolytes (KOH, KHCO3, KCl, KHSO4) were chosen as the candidate catholyte and anolyte; the most suitable electrolyte was chosen by monitoring the amount of HCOOH and faradaic efficiency. The effect of the pH of the selected catholyte on the conversion of CO2 to HCOOH was also investigated. In addition, the reaction temperature was varied and its effect was studied. From the observations made, we determined the optimal reaction conditions for the production of HCOOH via the electrochemical reduction of CO2 by a systematic approach.11Nsciescopu
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