A simple simulation for the interactions of charged particles
#Introduction This simulation is my basic attempt at an N-body simulation. There are no fancy algorithms to speed up the calculations, just a basic iterative simulation.
Integrals from an acceleration graph
Introduction
I was introduced to an app on my phone that uses all of the sensors to record interesting physics data. On the train to work the other day I opened up the app to record data from the 3 axes of accelerometers. I’ve been studying integrals and the intuition that a summed acceleration curve equals the velocity finally hit me.
Determining unique orbits in Python
Determining an orbit from one radar observation was the chapter in Fundamentals of Astrodynamics by Bates, that I flipped to when I took the book off of my grandpa’s shelf. I flipped through the introduction to the section, and was fascinated about the Doppler effect. Being experienced only in High School introductory physics at the time, I only knew about the Doppler shift in the context of red/blue and the sound a F1 car made as it zoomed past. Seeing that we could determine an orbit of a satelite all the way out in space with just these basic data points fascinated me, and I sat down and worked my way through the rest of the book. It’s been about 3 years since then and I finally felt like I had the calculus and linear algebra skills to implement the projects in the back of the book. So over a weekend, I hacked on the code and algorithms to turn a radar observation into an orbit.
Johannes Kepler and his 3 laws
This is a series of the three men that have made physics and astronomy what they are today.