The Potential Distribution Theorem and Models of Molecular Solutions / by T. L. Beck and others. [Electronic Resource]
Material type: Computer filePublication details: Cambridge : Cambridge University Press, 2006Description: xiv, 230pISBN:- 9780511536663
- 541.22Â B388P
Item type | Home library | Collection | Call number | Status | Notes | Date due | Barcode | Item holds | |
---|---|---|---|---|---|---|---|---|---|
e-Book | S. R. Ranganathan Learning Hub Online | Textbook | 541.22 B388P (Browse shelf(Opens below)) | Available (e-Book For Access) | Platform : Cambridge Core | EB0301 |
Browsing S. R. Ranganathan Learning Hub shelves, Shelving location: Online, Collection: Textbook Close shelf browser (Hides shelf browser)
541.0421 R18N New Directions in Solid State Chemistry | 541.0421 Sm28S Solid State Chemistry | 541.0421 W52S Solid State Chemistry and its Applications | 541.22 B388P The Potential Distribution Theorem and Models of Molecular Solutions | 541.22 F866M Molecular Organic Materials : From Molecules to Crystalline Solids | 541.223 H674A The Arrangement of Atoms in Space | 541.226 Is7I Intermolecular and Surface Forces |
An understanding of statistical thermodynamic molecular theory is fundamental to the appreciation of molecular solutions. This complex subject has been simplified by the authors with down-to-earth presentations of molecular theory. Using the potential distribution theorem (PDT) as the basis, the text provides a discussion of practical theories in conjunction with simulation results. The authors discuss the field in a concise and simple manner, illustrating the text with useful models of solution thermodynamics and numerous exercises. Modern quasi-chemical theories that permit statistical thermodynamic properties to be studied on the basis of electronic structure calculations are given extended development, as is the testing of those theoretical results with ab initio molecular dynamics simulations. The book is intended for students taking up research problems of molecular science in chemistry, chemical engineering, biochemistry, pharmaceutical chemistry, nanotechnology and biotechnology.
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