Este fichero contiene los códigos de la programación realizada en Arduino de los trabajos prácticos de Física y Química para el nivel de bachillerato.
Estos códigos son de software libre: puede redistribuirlo y/o modificarlo bajo los términos de la Licencia Pública General GNU publicada por la Free Software Foundation.
Contributors:Teresa López-Pellisa, Fernando Rodríguez-Gallego, Neus Rotger
This database provides the interviews done to the students at the end of the Teaching Innovation Project: "Writing an academic review in tele-collaborative settings" (PID 181960), carried out at the Universitat de les Illes Balears (UIB) with the collaboration of the Open University of Catalonia (UOC) during the academic year 2018-2019. We have used some of the information obtained from these interviews in the article: "Collaborative Writing at Work: Peer Feedback in a Blended Learning Environment"
Article Summary: This exploratory study aims to analyse the nature of peer feedback during a collaborative writing assignment, and to identify the possible effects feedback has on the revision of a text written by university students in a blended learning environment. Under analysis are two different graduate’s courses in academic writing, during which, over a period of a whole semester, the students (n = 85) were divided into 25 work groups to carry out a co-evaluation assignment with the support of a technology platform. The results obtained indicate that, when collaborative writing includes peer feedback, instead of unidirectional corrections from the teacher, the students respond more reflectively and constructively, they discuss the content they are working with, and, as a result, they effect significant changes in their own writing.
Contributors:Kerem Özkap, Ertan Peksen, Ismail Kaplanvural, Deniz Çaka
This data and code are associated with the article "3D Scanner Technology Implementation to Numerical Modeling of GPR" by the same authors. The 3D scanner data and Matlab code used in the article are provided with other necessary files. The Readme file comprises detailed descriptions of the data files and formats.
Please see the publication for more information about this data set.
Contributors:Noritsune Kawaharada, Lennart Thimm, Friedrich Dinkelacker
Cavitation inside fuel injection nozzles affects the atomization process of injected liquids. It is necessary to understand and model the process for realizing an appropriate injection strategy for an efficient combustion. As the nature of the fuel injector, it has contraction, divergent and bending parts from small to large scale. These geometrical characteristics of the nozzle have an effect on the cavitation phenomena even if it is kind of a small manufacturing variation. However, a simultaneous contained database for the transient cavitation structure especially inside the real-scale nozzle and the nozzle geometry has not been established well. Therefore, parametric investigations have been done on our manufactured transparent nozzles. And the results will be shared step by step for the cavitation model evaluations and developments.
In this database, the results in below on each nozzle are uploaded.
1. High speed imaging of the transient cavitation structure.
2. Nozzle geometry which modified as close as the measured shape.
3. Samples of mesh files and simulation results (PDF).
The purpose of this database is to provide the data to someone who intends to understand and model the cavitation phenomena. This research work is financially supported by German Research Foundation (Deutsche Forschungsgemeinschaft, DFG) within the project DI 591/29-1.
First of all, please read "About_this_database.pdf".
Materials used to produce figures in the manuscript entitled "Photonuclear Reactions in Lightning II: Comparison between Observation and Simulation Model" (Y. Wada et al., submitted to Journal of Geophysical Research - Atmospheres) are included.
This case represents part of the European high voltage transmission network. It contains 1,354 buses, 260 generators, 1,991 branches and it operates at 380kV and 220kV. The data stems from the Pan European Grid Advanced Simulation and State Estimation (PEGASE) project. The PEGASE original data was obtained from Matpower (Which is also included here). The case has been modified to incorporate an HVDC Link and a MTDC grid. Two files contain the modified data, one in excel and one in AIMMS.dat
Here are the data and the codes used in Hiramoto&Cline (2020). Imaris image data, Matlab code, and data in mat or fig (with metadata) files are provided. These Matlab codes require a statistic toolbox.
Materials used to produce figures in the manuscript entitled "Photonuclear Reactions in Lightning I: Verification and Modeling of Reaction and Propagation Processes" (Y. Wada et al., submitted to Journal of Geophysical Research - Atmospheres) are included.