4,268 research outputs found

    Ty Matson: Senior Recital, Trombone

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    This Senior Honors Project is entitled “Ty Matson: Senior Recital, Trombone.” The author of the project is Ty Matson. The Senior Honors Project was the preparation and performance of my senior trombone recital, with program notes to accompany the traditional program list of pieces. The trombone recital was comprised of seven pieces of varied styles, musical eras, and composers. The program notes that were distributed in addition to the program consisted of background information on the composers as well as the compositions themselves. The recital, not including intermission, lasted approximately 47 minutes

    Accurate metabolic flux analysis through data reconciliation of isotope balance-based data

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    Various techniques and strategies have been developed for the identification of intracellular metabolic conditions, and among them, isotope balance-based flux analysis with gas chromatography/mass spectrometry (GC/MS) has recently become popular. Even though isotope balance-based flux analysis allows a more accurate estimation of intracellular fluxes, its application has been restricted to relatively small metabolic systems because of the limited number of measurable metabolites. In this paper, a strategy for incorporating isotope balance-based flux data obtained for a small network into metabolic flux analysis was examined as a feasible alternative allowing more accurate quantification of intracellular flux distribution in a large metabolic system. To impose GUMS based data into a large metabolic network and obtain optimum flux distribution profile, data reconciliation procedure was applied. As a result, metabolic flux values of 308 intracellular reactions could be estimated from 29 GC/MS based fluxes with higher accuracy.This work was supported by Korean Systems Biology Research Program (M10309020000-03B5002-00000) of the Ministry of Science and Technology, BK21 project, and by the KOSEF through the Center for Ultramicrochemical Process Systems. Further supports by the LG Chem Chair Professorship, Microsoft and IBM-SUR program are appreciated

    Ty Matson: Senior Recital , Trombone

    No full text
    "This Senior Honors Project is entitled ""Ty Matson: Senior Recital , Trombone."" The author of the project is Ty Matson. The Senior Honors Project was the preparation and performance of my senior trombone recital , with program notes to accompany the traditional program list of pieces. The trombone recital was comprised of seven pieces of varied styles , musical eras , and composers. The program notes that were distributed in addition to the program consisted of background information on the composers as well as the compositions themselves. The recital , not including intermission , lasted approximately 47 minutes.

    Ty Matson: Senior Recital, Trombone

    No full text
    This Senior Honors Project is entitled “Ty Matson: Senior Recital, Trombone.” The author of the project is Ty Matson. The Senior Honors Project was the preparation and performance of my senior trombone recital, with program notes to accompany the traditional program list of pieces. The trombone recital was comprised of seven pieces of varied styles, musical eras, and composers. The program notes that were distributed in addition to the program consisted of background information on the composers as well as the compositions themselves. The recital, not including intermission, lasted approximately 47 minutes

    Demand forecasting for multigenerational products combining discrete choice and dynamics of diffusion under technological trajectories

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    The discrete choice model generally captures consumers' valuation of the product's quality within the framework of a cross-sectional analysis, while the diffusion model captures the dynamics of demand within the framework of a time-series analysis. We propose an adjusted discrete choice model that incorporates the choice behavior of the consumer into the dynamics of product diffusion. In addition, a new estimation structure is proposed, within the framework of the time-series analysis, which enables the estimation of the discrete choice model on market-level data to be performed in such a way as to avoid the problem of price endogeneity and to obtain greater flexibility in forecasting demand. As an empirical application, the suggested model is applied to the case of the worldwide DRAM (dynamic random access memory) market. In forecasting future demand of DRAM generations, we integrate Moore's law and learning by doing to reflect the future technological trajectories of DRAM innovations, as well as consumers' consumption trends to reflect the dynamics of demand environments. As a result, the suggested model shows better performance in explaining the diffusion of new-generation product with limited number of data observations. (c) 2003 Elsevier Inc. All rights reserved

    ANALYSIS OF COMBINED CONDUCTIVE AND RADIATIVE HEAT-TRANSFER IN A 2-DIMENSIONAL RECTANGULAR ENCLOSURE USING THE DISCRETE ORDINATES METHOD

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    An efficient tool to deal with multidimensional radiative heat transfer is in strong demand to analyse the various thermal problems combined either with other modes of heat transfer or with combustion phenomena. The current study examines the discrete ordinates method (DOM) for coupled radiative and conductive heat transfer in rectangular enclosures in which either a non-scattering or scattering medium is included. The results are compared with the other benchmark approximate solutions. The efficiency and accuracy of the DOM are thus validated.The financial assistance by the Objective Research Fund of the Korea Science and Engineering Foundation is gratefully acknowledged

    Thermal development of radiatively active pipe flow with nonaxisymmetric circumferential convective heat loss

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    The cooling problem of the hot internal pipe flow has been investigated. Simultaneous conduction, and radiation in the fully developed inner pipe flow were considered with prescribed azimuthally varying convective heat loss at the pipe wall. A complex, nonlinear integro-differential radiative transfer equation was solved by the discrete ordinates method (or called S-N method). The energy equation was solved by control volume based finite difference technique. A parametric study was performed by varying the conduction-to-radiation parameter, optical thickness, and scattering albedo. The results have shown that initially the radiatively active medium could be more efficiently cooled down compared with the cases otherwise. But even for the case with dominant radiation, as the medium temperature was lowered, the contribution of conduction began to exceed radiation. Copyright (C) 1996 Elsevier Science Ltd
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