Methods in Computational Chemistry
Editat de Stephen Wilsonen Limba Engleză Hardback – 31 ian 1993
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Specificații
ISBN-13: 9780306442636
ISBN-10: 0306442639
Pagini: 349
Ilustrații: XIV, 349 p.
Dimensiuni: 155 x 235 x 22 mm
Greutate: 0.69 kg
Ediția:1992
Editura: Springer Us
Colecția Springer
Locul publicării:New York, NY, United States
ISBN-10: 0306442639
Pagini: 349
Ilustrații: XIV, 349 p.
Dimensiuni: 155 x 235 x 22 mm
Greutate: 0.69 kg
Ediția:1992
Editura: Springer Us
Colecția Springer
Locul publicării:New York, NY, United States
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Public țintă
ResearchCuprins
The Effects of Electron Correlation on Atomic Properties (K. Jankowski). Calculation of P and T Violating Properties in Atoms and Molecules (A.M. MartenssonPendrill). Theory and Computation of Molecular Properties (B.T. Pickup). Perturbation Theory of Atomic and Molecular Properties (S. Wilson). Index.
Descriere
Descriere de la o altă ediție sau format:
When, forty years ago, as a student of Charles Coulson in Oxford I began work in theoretical chemistry, I was provided with a Brunsviga calculator-a small mechanical device with a handle for propulsion, metal levers for setting the numbers, and a bell that rang to indicate overflow. What has since come to be known as computational chemistry was just beginning. There followed a long period in which the fundamental theory of the "golden age" (1925-1935) was extended and refined and in which the dreams of the early practitioners were gradually turned into hard arithmetic reality. As a still-computing survivor from the early postwar days now enjoying the benefits of unbelievably improved hardware, I am glad to contribute a foreword to this series and to have the opportunity of providing a little historical perspective. After the Brunsviga came the electromechanical machines of the late 1940s and early 1950s, and a great reduction in the burden of calculating molecular wavefunctions. We were now happy. At least for systems con taining a few electrons it was possible to make fully ab initio calculations, even though semiempirical models remained indispensable for most molecules of everyday interest. The 1950 papers of Hall and of Roothaan represented an important milestone along the road to larger-scale non empirical calculations, extending the prewar work of Hartree and Fock from many-electron atoms to many-electron molecules-and thus into "real chemistry.
When, forty years ago, as a student of Charles Coulson in Oxford I began work in theoretical chemistry, I was provided with a Brunsviga calculator-a small mechanical device with a handle for propulsion, metal levers for setting the numbers, and a bell that rang to indicate overflow. What has since come to be known as computational chemistry was just beginning. There followed a long period in which the fundamental theory of the "golden age" (1925-1935) was extended and refined and in which the dreams of the early practitioners were gradually turned into hard arithmetic reality. As a still-computing survivor from the early postwar days now enjoying the benefits of unbelievably improved hardware, I am glad to contribute a foreword to this series and to have the opportunity of providing a little historical perspective. After the Brunsviga came the electromechanical machines of the late 1940s and early 1950s, and a great reduction in the burden of calculating molecular wavefunctions. We were now happy. At least for systems con taining a few electrons it was possible to make fully ab initio calculations, even though semiempirical models remained indispensable for most molecules of everyday interest. The 1950 papers of Hall and of Roothaan represented an important milestone along the road to larger-scale non empirical calculations, extending the prewar work of Hartree and Fock from many-electron atoms to many-electron molecules-and thus into "real chemistry.