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- notions_avancees
- tml]] * [[http://code.activestate.com/recipes/580628-pluggable-python-generators/]] * [[http://www... ]] * [[http://www.analyticsvidhya.com/blog/2015/06/regular-expression-python/|Beginners Tutorial for... es.ipynb]] * [[http://jeffknupp.com/blog/2014/06/18/improve-your-python-python-classes-and-object-... * [[https://twitter.com/driscollis/status/1508506999268552713]] * [[https://twitter.com/driscolli
- epidemie_coronavirus
- Coronavirus 2019 Dataset, Sadrach Pierre, Medium, 06/03/2020 * [[https://towardsdatascience.com/visu... Little Less Painful!]], Nik Piepenbreier, Medium, 06/04/2020 * Graphiques et évolutions par Nicolas ... .0 documentation]] [[https://arxiv.org/abs/1503.04066|[1503.04066] Compensating for population sampling in simulations of epidemic spread on temporal cont
- matplotlib_simple
- python-part-ii-line-plot-legends-colors-4430a5891706|Making publication-quality figures in python (Par... Lawrence Alaso Krukrubo - DataSeries - Medium, 17/06/2020 * [[https://medium.com/dataseries/masterin... Lawrence Alaso Krukrubo - DataSeries - Medium, 29/06/2020 * [[https://levelup.gitconnected.com/matpl... able-masterpieces-are-created-with-matplotlib-22780667dee|Yes, These Unbelievable Masterpieces Are Cre
- pylab_simple
- s codes sources</note> <code python fonctions-FT-06.py> #!/usr/bin/env python #-*- coding: utf-8 -*- ... ées de Fourier') plot(w1) xlabel("f/Hz") ylabel("A(f)") savefig('fonctions-FT-06.png') show() </code>
- bioinformatic
- evolution and biochemistry]], Germán Tenorio, 02/06/2014 * documentation sur les arbres phylogénéti
- numpy_simple
- verses !!!**</note> <code python arrays_polynomes_06.py> #! /usr/bin/env python # -*- coding: utf-8 -*
- pandas
- into a NumPy array]] Giorgos Myrianthous, Medium, 06/05/2022 * [[https://towardsdatascience.com/20-o
- plot_sinus_cosinus
- our une représentation de qualité : <code python 06-setting_tick_labels.py> ... plt.xticks([-np.pi, -
- pressions_partielles_systemes_non_ideaux
- , donnee = exemple U02 = np.array([0,110,122,191,206,259,272,284,323,328,357,361,381,382,390,394,403,4... ,489,491,491,495,502,501,513]) a1 = np.array([0,0.061,0.071,0.121,0.133,0.185,0.198,0.209,0.275,0.288,
- rdkit
- ] * [[http://davies-lee.com/index.php/2018/10/06/rdkit-in-jupyter-notebooks/]] * [[http://www.ch
- tableau_periodique_2011
- .0107,2,13,"#00FF66"], ["Azote","N",7,14.00674,2,14,"#00FF66"], ["Oxygene","O",8,15.99... 3761,3,14,"#00FF66"], ["Soufre","S",16,32.066,3,15,"#00FF66"], ["Chlore","Cl",17,35.45... 24,5,3,"#FFCCCC"], ["Niobium","Nb",41,92.9063,5,4,"#FFCCCC"], ["Molybdene","Mo",42,95.... 055,5,8,"#FFCCCC"], ["Palladium","Pd",46,106.42,5,9,"#FFCCCC"], ["Argent","Ag",47,107.