Explore orbital motion in polar coordinates through this 20-minute video tutorial. Learn how to derive differential equations for orbital motion and solve them using numerical calculations in Python. Dive into the fundamentals of polar coordinates, apply Newton's second law, and understand the process of numerical calculation. Examine the provided Python code and learn how to plot r and theta, as well as angular momentum. Gain insights into Kepler's laws of planetary motion and their connection to orbital mechanics. Access additional resources, including related videos on Kepler's laws and a derivation of acceleration in polar coordinates, to deepen your understanding of celestial mechanics.
Orbital Motion in Polar Coordinates - Differential Equations and Numerical Solutions
Dot Physics via YouTube
Overview
Syllabus
- Intro
- Polar Coordinates
- Newton's second law
- Numerical Calculation
- Python code
- plotting r and theta
- Plotting angular momentum
Taught by
Dot Physics
Related Courses
-
Classical Mechanics
5.0 -
Physics 4A - Kepler's Second Law and Conservation of Angular Momentum
-
Classical Mechanics: Pendulum in Polar Coordinates - Python Modeling
-
General Astronomy - Making Sense of the Universe
-
Earth Science - The Birth of Modern Astronomy
-
Hamiltonian Mechanics for Projectile Motion in Polar Coordinates
