💻 A comprehensive simulation on the #Ising_Model by Asher Preska Steinberg, Michael Kosowsky, and Seth Fraden, Physics Department, Brandeis University
🔑 The goal of this experiment was to create #Monte_Carlo simulations of the 1D and 2D #Ising model.
To accomplish this the #Metropolis algorithm was implemented in #MATLAB. The dependence of #magnetization on #temperature with and without an external field was calculated, as well as the dependence of the #energy, #specific_heat, and #magnetic_susceptibility on temperature. The results of the 2D simulation were compared to the #Onsager solution.
🔗 http://fraden.brandeis.edu/courses/phys39/simulations/AsherIsingModelReport.pdf
🔑 The goal of this experiment was to create #Monte_Carlo simulations of the 1D and 2D #Ising model.
To accomplish this the #Metropolis algorithm was implemented in #MATLAB. The dependence of #magnetization on #temperature with and without an external field was calculated, as well as the dependence of the #energy, #specific_heat, and #magnetic_susceptibility on temperature. The results of the 2D simulation were compared to the #Onsager solution.
🔗 http://fraden.brandeis.edu/courses/phys39/simulations/AsherIsingModelReport.pdf
💡 Complexity is not just a measure of how intricate, or sophisticated, something is. It defines the topology of information flow and of the processes which make Nature work!
🔗 https://resiliencepost.com/2018/01/16/on-the-extraordinary-importance-of-complexity/amp
#Complexity #Entropy #Energy #DNA #Nature
🔗 https://resiliencepost.com/2018/01/16/on-the-extraordinary-importance-of-complexity/amp
#Complexity #Entropy #Energy #DNA #Nature
The Resilience Post
On the extraordinary importance of complexity - The Resilience Post
Complexity is not just a measure of how intricate, or sophisticated, something is. Find out more about complexity in this text by Jacek Marczyk.