Python Physics: Hooke's Law and Modeling a Mass on a Spring
Offered By: Dot Physics via YouTube
Course Description
Overview
Explore numerical calculations in Python by modeling Hooke's Law and a mass on a spring system in this 19-minute video tutorial. Learn how to implement physics concepts using code, with a focus on simulating spring force behavior. Access the provided code example to follow along and enhance your understanding of computational physics. Discover how to visualize spring force data using Vernier's Graphical Analysis App, available for free in its basic version. For a deeper dive into numerical calculations, check out the linked video on modeling falling coffee filter motion. Gain practical skills in applying Python to solve physics problems and create accurate simulations.
Syllabus
Python Physics: Hooke's Law and Modeling a Mass on a Spring
Taught by
Dot Physics
Related Courses
Scientific ComputingUniversity of Washington via Coursera Biology Meets Programming: Bioinformatics for Beginners
University of California, San Diego via Coursera High Performance Scientific Computing
University of Washington via Coursera Practical Numerical Methods with Python
George Washington University via Independent Julia Scientific Programming
University of Cape Town via Coursera