Notebooks for "A high bias low-variance introduction to Machine Learning for physicists."

サイエンス、テクノロジー、エンジニアリング関連の情報を記載したノート（忘備録）です。

Interactive applications for electromagnetics in geophysics

Contains Jupyter notebooks and other materials prepared for the course Numerical Methods offered at TIFR Hyderabad (https://moldis-group.github.io/teaching.html)

This is a collection of interactive IPython notebooks for teaching/learning mechanics from a geometric point of view

🎨 An authorial set of fundamental Python recipes on Creative Coding and Computer Art.

Jupyter notebook with steps to rediscover the Higgs boson yourself!

🍊 Intro to symbolic computation in Python including applications to function optimization, physics simulation and more. Includes notebooks on back-propagation, auto-diff and more.

Interesting IPython Notebooks

exp(2^n/4) determines the topological Axis linking micro and macro physics ratios in a Jupyter Notebook entitled Jupyter-Notebook Practice Physical Constants Ratios. It uses the reduced Compton Electron wavelength as unit of length.

Jupyter notebook that introduces basics of Python and the gravitational waves from LIGO data. Intended for PHYS2500 students at Utah State University.

Examples of use of the Jupyter notebook.

Toshiki's web notebook built upon Vitepress and deployed via Vercel!

🐍 🐈 🎓 A set of articles about Quantum Harmonic Oscillator completely writen in Jupyter Notebook

Mechanics worksheets using Python notebooks (public)

Este é um repositório que contem os notebooks do projeto PET.py do PET - Física da UFRN.

This set of jupyter notebooks aims to educate users about the physics of synestias, a newly discovered object that can form planet-moon systems. A user will be guided through text, interactive figures, diagrams, and videos for a more visual and intuitive approach to learning about complex research topics.

a compilation of notebooks for optoelectronics engineering

Content studied while obtaining my BS in Physics, rewritten and expanded. Coded in HTML and CSS with MathJax.js from the ground-up. Purpose: work on my coding skills while providing "open-source" notebook for undergraduate physics material.

Library based on the Bridge-weighing-in-motion (BWIM) model to perform different tasks.