1. phys2820-fall2018
Name
jmunroe's repositories
data
lecturenotes
Assignment.01-Intro-to-Python-and-Eulers-Method.ipynb
Assignment.02-Solving-First-Order-Equations-with-Eulers-Method.ipynb
Assignment.03-Projectile-Motion.ipynb
Assignment.04-Data-Analysis-Numerical-Methods.ipynb
Assignment.05-Runge-Kutta-Methods.ipynb
Assignment.06-Solving-Problems-Symbolically-and-Numerically.ipynb
Lab.01-Python-Jupyter-Matplotlib.ipynb
Lab.02-Skydiver-Problem.ipynb
Lab.03-Projectile-Motion.ipynb
Lab.04-Non-linear-Pendulum.ipynb
Lab.05-Numerical-Differentiation-Integration.ipynb
Lab.06-Curve-Fitting.ipynb
Lab.07-Central-Forces-and-Potential-Energy.ipynb
Lecture.01-Solving-Problems-Numerically.ipynb
Lecture.02-Numerical-Programming.ipynb
Lecture.03-Bicyle-Racing.ipynb
Lecture.04-Projectile-Motion.ipynb
Lecture.05-Baseball.ipynb
Lecture.06-Simple-Harmonic-Motion.ipynb
Lecture.07-Damped-Pendulums.ipynb
Lecture.08-Forced-Pendulums.ipynb
Lecture.09-Lorenz-Model.ipynb
Lecture.10-Coupled-Oscillators.ipynb
Lecture.12-Numerical-Differention-and-Integration.ipynb
Lecture.13-Data-Analysis-and-Curve-Fitting.ipynb
Lecture.14-Higher-Order-Methods-for-DEs.ipynb
Lecture.15-Travel-Time-for-Seismic-Waves.ipynb
Lecture.16-Earthquake-Detection.ipynb
Lecture.17-Computer-Algebra-Systems.ipynb
Lecture.18-Building-on-Physics-Past.ipynb
Lecture.19-Celestial-Mechanics.ipynb
Lecture.20-Precession-of-the-Perihelion-of-Mercury.ipynb
Lecture.21-Three-Body-Problem.ipynb
Lecture.22-Molecular-Dynamics.ipynb
Test-1-Fall-2018.ipynb
Test-2-Fall-2018.ipynb
.gitignore
README.md
environment.yml
falling_object.dat
test2_velocity.dat