This repository contains the Jupyter notebooks of the intriguing physical constants ratios that are at play in micro-physics and cosmology cite http://vixra.org/pdf/1811.0146v8.pdf if you use this Jupyter-Notebook-Practice-Physical-Constants-Ratios(2018) notebook co-authored by Dr. Christian Bizouard, Nicolas Flawisky, Prof. Michel Grosmann, Valery Kotov, Prof. Francis Sanchez, Pr. Renee Veysseyres, Dr. Dominique Weigel, L.Gueroult & D.Gayral.
This repository is read-only: the source files are on the Jupyter-Notebook-Practice-Physical-Constants-Ratios repository.
With Binder, you can run most of the Jupyter notebooks directly from your web browser without installing anything. Just click on the launch binder button above. A temporary Jupyter Notebook server with all dependencies will be automatically launched in the cloud. Be patient during the setup as it might take a while to load up. The image is not persistent: all your changes will be lost after some time.
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Download and install Anaconda: choose the Python 3.6, 64-bit version for your operating system (macOS, Linux, or Windows).
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Open a terminal (
cmdon Windows). -
Clone the repository:
$ git clone https://github.com/LaGuer/Jupyter-Notebook-Practice-Physical-Constants-Ratio.git
$ cd Jupyter-Notebook-Practice-Physical-Constants-Ratio- Create the
physicalconstantsratiosconda environment:
conda env create -f environment.yml-
Activate the environment:
- On macOS and Linux:
source activate physicalconstantsratios- On Windows:
activate physicalconstantsratios
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Launch the Jupyter Notebook:
$ jupyter-notebookJupyter-Notebook Practice Physical Constants Ratios
Explore intriguing Physical Constants ratios between microphysics and cosmology
Jupyter-Notebook-Practice-Physical-Constants-Ratios Github.io
Jupyter-Notebook-Practice-Physical-Constants-Ratios Github.com
License The 'Jupyter-Notebook-Practice-Physical-Constants-Ratios' package is licensed under the MIT "Expat" License. The original author(s) are:
- LaGuer.
- Dr Francis Michel Sanchez
- Denis Gayral
Please, cite this paper http://vixra.org/pdf/1811.0146v8.pdf if you employ this package in your research work.
Other related publications are available from these references:
- http://vixra.org/author/christian_bizouard from OBSPM
- Christian-Bizouard-Geophysical-modelling-of-the-polar-motion
- Christian-Bizouard co-authored Lunar influence on equatorial atmospheric angular momentum
- Nicolas Flawisky co-authored Emergence of a New Quantum Mechanics by Multivalued Logic, in The Physics of Reality: Space, Time, Matter, Cosmos : Proceedings of the 8th Symposium Honoring Mathematical Physicist Jean-Pierre Vigier, Covent Garden, London, UK, 15 -18 August 2012
- Rxiv Publications by Michel Grosmann
- Prof. Michel H.Grosmann 1st European Conf on Optics Applied to Metrology in SPIE Proceedings 1978
- Prof. Michel H.Grosmann editor of Optics and Photonics Applied to Medicine in SPIE Proceedings 1980
- http://vixra.org/author/valery_A_kotov from CrAO
- http://rxiv.org/author/V_A_kotov
- Rxiv Publications by F_M_sanchez and Francis Sanchez in ResearchGate
- Vixra Publications by francis_m_sanchez
- https://vixra.org/author/renee_veysseyre and R.Veysseyre in ResearchGate
- Books of Renée Veysseyre : bibliographie - Dunod
- http://vixra.org/author/dominique_weigel and D.Weigel in ResearchGate
- Prof J.Maruani in ResearchGate and The Dirac Electron