Intro. Lecture 04: Numerical Methods for Particle and Distribution Methods: Introduction to the PIC Method*
![2. Response of three different compositions of leapfrog and the midpoint rule to the harmonic oscillator. Top 2. Response of three different compositions of leapfrog and the midpoint rule to the harmonic oscillator. Top](https://www.researchgate.net/profile/Yajuan-Sun/publication/220180043/figure/fig1/AS:651590813904897@1532362764331/Response-of-three-different-compositions-of-leapfrog-and-the-midpoint-rule-to-the_Q640.jpg)
2. Response of three different compositions of leapfrog and the midpoint rule to the harmonic oscillator. Top
Intro. Lecture 04: Numerical Methods for Particle and Distribution Methods: Introduction to the PIC Method*
![PDF] Fourth-order leapfrog algorithms for numerical time evolution of classical and quantum systems | Semantic Scholar PDF] Fourth-order leapfrog algorithms for numerical time evolution of classical and quantum systems | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/2b15ed090f879f626c510863941f3ba79320603a/7-Table2-1.png)
PDF] Fourth-order leapfrog algorithms for numerical time evolution of classical and quantum systems | Semantic Scholar
![finite difference - Simple Harmonic Motion using the leapfrog method - Computational Science Stack Exchange finite difference - Simple Harmonic Motion using the leapfrog method - Computational Science Stack Exchange](https://i.stack.imgur.com/rdFnL.png)