An active archival researcher and connoisseur, he is credited with the rediscovery of Johannes Vermeer and significant re-evaluations of of other seventeenth-century Dutch artists, including Frans Hals. In 1855, he began using the Dutch-sounding pseudonym "Willem Bürger," focusing his writing on northern European art. After living in London, Brussels and in Switzerland, he returned in 1859, continuing to write under the government of Second Empire (1851-70). He returned in 1859, continuing to write under the government of Second Empire. Because of his support of some of the radicals in the 1848 revolution, (he was a Saint-Simonist and exponent of Pierre Leroux, 1797–1871) was forced into exile in 1849. Between 1844–8 Thoré was the art critic for Le Constitutionnel. In 1842 he and Paul Lacroix (1806–1884) founded a private agency to sell and promote art, the Alliance des Arts. He extolled the work of Eugène Delacroix, Théodore Rousseau and other Barbizon school painters, chiding the conservative painters such as Jean-Auguste-Dominique Ingres as well as the more popular artists such as Paul Delaroche and Horace Vernet. By the 1840s his art criticism was wide ranging encompassing aesthetic and political views. This website was created on July 2019 and is updated at best effort basis.Thoré wrote criticism beginning in the 1830s, during the regime of the July Monarchy (1830–1848). Konstantinos Theofilatos is an Associate Professor of Physics in National and Kapodistrian University of Athens. Higher order optimization (which could be problem-specific) to be discussed in class or in homework assigments. Instead, it is purposefully attempted to just demonstrate the core ideas of the underline algorithms, leaving That is to say, the code is not always optimized having in mind efficiency of execution.įine tuning of the execution flow, while important for speed and precision, often obscures transparency at first site. assume little, or zero programming skills.code length should be minimal and take least effort to comprehend.reflect the math forms taught symbolically as-they-appear in the lecture.The code in CompPhysics/examples is provided for demonstration purposes and is written having in mind three principles: main repository in github: theofil/CompPhysics. In that case you just need to browse the code in. You can use your gmail/android account to open via all code write-ups. Warning the launching of the interactive environment takes approximately *~0.5-5 minutes, depending on the load, so be patient! Or if you have a Google account (free registration) To launch an interactive Python3 environment and play with templates and examples of computational algorithms taught in the course. Launch Interactive Computational Environment (no registration needed) you name it) in their personal computer, once they feel ready to do so. The students are strongly encouraged to create their own favorite environment (C/C++, FORTRAN, Matlab, Java, R, Mathematica, Python, Julia. The usage of the present computational environment is optional and is only meant to serve those that find it useful. Without having the burden to install manually on their own any software in a private computer. This website provides a cloud-based interactive computing environment, for my undergraduate course (3rd semester, obligatory) of Computational Physics Υπολογιστική Φυσική 10ΥΚΟ21, in National and Kapodistrian University of Athens (2019-2022).īy using this custom made interactive environment, the students are be able to study and practice real implementations of the course's material
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