Différences entre les versions de « VBTutorial1 »
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== Exercise 1 : Starting up with the H<math>{}_2</math> molecule == | == Exercise 1 : Starting up with the H<math>{}_2</math> molecule == | ||
− | + | The Gamess and XMVB input files for the H<math>{}_2</math> molecule are provided in the ''Exercise'' folder on the tutorial machines. These are VBSCF calculations with the 6-31G(d,p) basis set, and the fragment specification in terms of symmetry-adapted orbitals (''frgtyp=sao''). | |
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− | + | Just inspect these inputs, run the gamess-xmvb program (using : ''vbrun h2''), and analyze the outputs. | |
Then these input files could serve you as templates for the next exercises. | Then these input files could serve you as templates for the next exercises. |
Version du 9 juillet 2012 à 13:01
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Basics of VB theory and XMVB program
Main exercises | ||||
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Exercise 1 : Starting up with the H<math>{}_2</math> moleculeThe Gamess and XMVB input files for the H<math>{}_2</math> molecule are provided in the Exercise folder on the tutorial machines. These are VBSCF calculations with the 6-31G(d,p) basis set, and the fragment specification in terms of symmetry-adapted orbitals (frgtyp=sao). Just inspect these inputs, run the gamess-xmvb program (using : vbrun h2), and analyze the outputs. Then these input files could serve you as templates for the next exercises. Exercise 2 : HF molecule : weights and bond energy
Exercise 3 : F<math>{}_2</math> molecule and bond energy
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Optional exercises - homework | ||||||
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Exercise 4 : The lone pairs of H2O(for further reading, see S. Shaik and P.C. Hiberty, "The Chemist's Guide to VB theory", Wiley, Hoboken, New Jersey, 2008, pp. 107-109) This exercise aims at comparing two descriptions of the lone pairs of H<math>{}_2</math>O : (i) the MO description in terms of non-equivalent canonical MOs and (ii) the « rabbit-ear » VB description in terms of two equivalent hybrid orbitals.
Exercice 5 : Solvent effect on C(Me)<math>{}_3</math>-Cl weights
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