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Henry Daniels-Koch edited section_Results_label_Results_In__.tex
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\section{Results}
\label{Results}
In Figure 1, we see that at low temperatures such as 1.5 and below, the equilibrium magnetization is 1 or slightly less than 1 and approaches its equilibrium quickly. At high temperatures such as 3.0 and above, the equilibrium approaches 0 quickly. Near the critical temperature (about
2.4), 2.5), The magnetism after each sweep approaches lies at some equilibrium between 0 and 1. These temperatures take longer to reach an equilibrium.
In Figure 2, we see how quickly the energy after a each sweep approaches equilibrium. Near the critical temperature (at 2.5 on the graph), the energy takes the longest to approach equilibrium, just as magnetism did. At higher temperatures, energies approach an average equilibrium of about -0.2. At lower temperatures, energies approach an average equilibrium of about -2.0.