Calculate pi by generating random lines, using this simulator of Buffon's Needle.
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Updated
Oct 16, 2015 - Java
Calculate pi by generating random lines, using this simulator of Buffon's Needle.
**Final year in college** Part of my simulation models homework. A project that attempts to estimate the value of Pi through the Buffon's needle problem.
This was a first year University project I completed in 2013. It uses a Monte Carlo method to find an approximation to Pi. See Buffon's needle problem for related reading. Written in Python, and uses Turtle.
A Buffon's needle problem simulator for HAS math homework
A monte carlo simulation of Buffon's needle for purposes of estimating pi
PEMODELAN DAN SIMULASI
Two different python implementations of Buffons-Needle problem
Two examples of Monte Carlo Simulations are discussed namely probability in coin toss and Buffon's needle problem to find pi.
Buffon's Needle Drop problem is among the first geometric probability problems in mathematics to be solved. It addresses the following question: Given a needle of length l dropped on a plane ruled with parallel lines d units apart, what is the probability that the needle will lie across a line upon landing?
Buffon's needle problem visualization using d3.js
In this repository, software applications in simulation and visualization for various applications are presented with interesting examples.
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