Fen Edebiyat Fakültesi / Faculty of Letters and Science
Permanent URI for this collectionhttps://hdl.handle.net/11727/1396
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Item Mesenchymal Stem Cells Administered Intraperitoneally Have A Potent Effects on the Experimental Allergic Airway Disease(2015) Isik, S.; Adan Gokbulut, A.; Karaman, M.; Kiray, M.; Bagriyanik, H. A.; Caglayan Sozmen, S.; Kozanoglu, I; Karaman, O.; Baran, Y.; Uzuner, N.; 0000-0002-5268-1210; 0000-0003-4064-7637; AAE-1241-2021; H-7577-2013Item Investigation of the Effect of Melatonin Administration on Calpain-1 Expression and Atrophic Morphology in Atrophy of Mouse Myoblast Cell Line Exposed to Hydrogen Peroxide(2019) Karimi, Nazli; Kartal, Yasemin; Budak, Murat Timur; https://orcid.org/0000-0002-3534-6621; AAL-6138-2021Item Solution of MHD Flow with BEM Using Direct Radial Basis Function Interpolation(2019) Gurbuz, M; Tezer-Sezgin, Munevver; https://orcid.org/0000-0002-7746-9005; HLG-7277-2023In this study, the two-dimensional steady MHD Stokes and MHD incompressible flows of a viscous and electrically conducting fluid are considered in a lid-driven cavity under the impact of a uniform horizontal magnetic field. The MHD flow equations are solved iteratively in terms of velocity components, stream function, vorticity and pressure by using direct interpolation boundary element method (DIBEM) in which the inhomogeneity in the domain integral is interpolated by using radial basis functions. The boundary is discretized by constant elements and the sufficient number of the interior points are taken. The interpolation points are different from the source points due to the singularities of the fundamental solution. It is found that as Hartmann number increases, the main vortex of the flow shifts through the moving top lid with a decreasing magnitude and secondary flow below it is squeezed through the main flow leaving the rest of the cavity almost stagnant. The increase in M develops side layer near the moving lid, but weakens the effect of Re in the MHD incompressible flow.Item Anti-Phytopathogenic Activity of Wild Medicinal Plants Extracts(2017) Kocabas, Aytac; Iseri, Ozlem Darcansoy; Unlu, Ummuhan; Sahin, Feride Iffet; 0000-0001-7622-1932; 0000-0001-7308-9673; F-5933-2013; AAC-7232-2020Item The Masochistic Self Quest of the Harassed Hero in Hanya Yanagihara's A Little Life(2018) Sarikaya-Sen, Merve; 0000-0003-2091-2536; AEG-2545-2022Item Investigation of the effects of nutrient restriction on endolysosomal signaling in colorectal cancer (CRC) cells.(2021) Gulec, Aliye E.; Husnugil, Hepsen H.; Oral, Goksu; Sheraj, Ilir; Banerjee, SreeparnaItem Biotization of In Vitro Plants with Endophytic Beneficial Bacterium (PGP_invit) to Understand Plant-bacteria Interaction(2019) Turkolmez, Nil; Albayrak, Merve; Batool, Maria; Kayihan, Doga Selin; Ekinci, Hamit; Akkaya, Ozlem; Seker, Mine Gul; Kayihan, Ceyhun; Aydinoglu, Fatma; Ciftci, Yelda OzdenItem A model for assessing organizational learning in software development organizations(Human-Centered Software Engineering / Lecture Notes in Computer Science. 7623, 251-258, 2012) Chouseinoglou, Oumout; Bilgen, SemihIn order to keep up with the continuously increasing competition and to obtain competitive advantage, software developer organizations (SDO) need to possess the characteristics of Learning Software Organizations (LSO). Maturity is directly related to both learning and knowledge management (KM). However, the major software process improvement (SPI) approaches do not explicitly address how learning capabilities of a SDO can be assessed or what knowledge needs to be managed and how, when, where, or by and for whom. This paper introduces a model for evaluating the organizational learning characteristics of a SDO. We report the results of applying the model in a university course on software development.