Intermolecular Potentials and the Second Virial Coefficient
Patrick L. Holt
Department of Chemistry and Physics, Bellarmine University, Louisville, Kentucky, 40205
Abstract
Downloads
Commentary
More Information: Keywords, JCE Citation
Abstract
Through exercises embedded in this worksheet, students explore the relationship between intermolecular potentials and the second virial coefficient. Students examine and adjust parameters associated with the hard-sphere, square-well, and Lennard-Jones potentials, noting differences while investigating the correlation between the form of these potentials and molecular interactions (Figure 1). They subsequently use these potentials to compute the second virial coefficient and explore the coefficient's temperature dependence for several substances. As a final exercise, students use computed values of B to investigate the temperature dependence of the compression factor, Z. Based on these computations and the resulting graphs, students assess the dependence of the virial coefficient on molecular interactions and ambient conditions. As a result, students gain a deeper understanding of the significance of the second virial coefficient and its intrinsic relationship to molecular properties. Student and instructor's versions of this worksheet are available in Mathcad 2001i and Mathcad 8 formats. The instructor's version contains additional notes and solutions to selected problems.
Figure 1. The hard sphere and Lennard-Jones potentials, US(r) and ULJ(r), as a function of r, the distance between the centers of the particles.
Downloads
 JCE Subscribers only: Institutional IP number access or name and password required
Commentary
 Editor's Commentary
Other Information
KeywordsComputer-Based Instruction; Gases; Physical Properties; Physical Chemistry; Symbolic Mathematics; Thermodynamics; Upper Division Undergraduate JCE Citation
Holt, Patrick L. J. Chem. Educ. 2004, 81, 607.
|
