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An Introduction to Thermal Physics

Daniel V. Schroeder

Physics

1st Edition 路 356 pages

ISBN: 9780201380279

Chapter 8: Q 8.31 (page 355)

Modify the Ising program to simulate a three-dimensional Ising model with a simple cubic lattice. In whatever way you can, try to show that this system has a critical point at around $T = 4.5$ .

Short Answer

Expert verified

Therefore, we used the Ising program to simulate a three-dimensional Ising model with a simple cubic lattice.

Step by step solution

01

Given information

Modify the Ising program to simulate a three-dimensional Ising model with a simple cubic lattice. System has a critical point at around $T = 4.5$ .

02

Explanation

Code for $3 D$ Ising model

03

Explanation

Because there were only $40$ points in this temperature range, the graph is "pointy." The number of iterations for these graphs was $5000$ , therefore the creation of these plots took a lengthy time.

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Most popular questions from this chapter

The critical temperature of iron is $1043 K$ . Use this value to make a rough estimate of the dipole-dipole interaction energy $蔚$ , in electron-volts.

Problem 8.13. Use the cluster expansion to write the total energy of a monatomic nonideal gas in terms of a sum of diagrams. Keeping only the first diagram, show that the energy is approximately
$U 鈮� \frac{3}{2} N k T + \frac{N^{2}}{V} 路 2 蟺 {鈭�}_{0}^{鈭�} r^{2} u (r) e^{- 尾 u (r)} d r$
Use a computer to evaluate this integral numerically, as a function of $T$ , for the Lennard-Jones potential. Plot the temperature-dependent part of the correction term, and explain the shape of the graph physically. Discuss the correction to the heat capacity at constant volume, and compute this correction numerically for argon at room temperature and atmospheric pressure.

Show that, if you don't make too many approximations, the exponential series in equation $8.22$ includes the three-dot diagram in equation $8.18$ . There will be some leftover terms; show that these vanish in the thermodynamic limit.

Consider a gas of molecules whose interaction energy $u (r)$ u is infinite for $r < r_{0}$ and negative for $r > r_{0}$ , with a minimum value of $- u_{0}$ . Suppose further that $k T 鈮� u_{0}$ , so you can approximate the Boltzmann factor for $r > r_{0}$ using $e^{x} 鈮� 1 + x$ . Show that under these conditions the second virial coefficient has the form $B (T) = b - (a / k T)$ , the same as what you found for a van der Waals gas in Problem 1.17. Write the van der Waals constants $a$ and $b$ in terms of $r_{0}$ and $u (r)$ , and discuss the results briefly.

Modify the ising program to compute the total magnetisation (that is, the sum of all the s values) for each iteration, and to tally how often each possible magnetisation value occurs during a run, plotting the results as a histogram. Run the program for a 5 x 5 lattice at a variety of temperatures, and discuss the results. Sketch a graph of the most likely magnetisation value as a function of temperature. If your computer is fast enough, repeat for a 10 x 10 lattice.

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