Python Jupyter Notebooks made throughout my Physics degree at University of Alaska Fairbanks
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Updated
Sep 7, 2023 - Jupyter Notebook
Python Jupyter Notebooks made throughout my Physics degree at University of Alaska Fairbanks
Notebook that implements a body and system class that simulate planetary movement in 2d or 3d.
Programs developed for the class of Computational Physics (FIS2018-FCUP), based on the book "Computational Physics" by Mark Newman, using Python (Jupyter Notebook)
BuddhiLW takes on the course of Loren Barba and Cysor notebooks, using Org-mode. http://lorenabarba.com/
A Python Notebook that simulates a simple pendulum. Solves the differential equation using both Euler Method and 4th Order Runge-Kutta to compare them. Generates a phase-space diagram of the pendulum.
A practical physics approach to creating a Plinko simulation in Jupyter Notebook. Complete with varying drag coefficients, increased drop velocity and positional input.
Computational essay physics, waves and oscillations. The notebook is about fourier analysis, some basic fourier theory and finally a real world usecase where i use historical weather data and apply fourier analysis on this data to look for anomalies and changes that could indicate climate change.
Selected topics in Computational Physics.
Repositório contendo o notebook utilizado durante a palestra "Análise Numérica com Python: O Poder da Linguagem que Conquistou o Coração de Cientistas e Engenheiros", ministrada na conferência Python Brasil 2020.
Collection of my jupyter notebooks, coding notes, physics lectures and routines.
🎨 An authorial set of fundamental Python recipes on Creative Coding and Computer Art.
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