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Springer, 1996. *Price HAS BEEN REDUCED by 10% until Monday, Oct. 31 (weekend sale item)* 182 pp., Hardcover, small hand stamp to front free endpaper else very good. - If you are readin… Mehr…

Springer, 1996. *Price HAS BEEN REDUCED by 10% until Monday, Oct. 31 (weekend sale item)* 182 pp., Hardcover, small hand stamp to front free endpaper else very good. - If you are reading this, this item is actually (physically) in our stock and ready for shipment once ordered. We are not bookjackers. Buyer is responsible for any additional duties, taxes, or fees required by recipient's country., Springer, 1996, 0, London: The Royal Society. Good. 1957. First Edition; First Edition. Library Buckram. Iv, 580 pages. With plates, diagrams, tables & illustrations. Original wrappers in. With library stamps & labels. Slight wear & slight soiling to spine, covers & corners. Top margin pages slightly rippled. Plates lightly rippled. A few plates marginally damaged, not affecting the image. Some pages creased; Ex-Library; Quarto; SERIES A VOLUME 239 No. 1216.12 February 1957Ñ The mechanism of the photolysis of acetamide. By B. C. Spall and E. W. R. Steacie, F. R. S. Ñ The theory of decay process of incompressible isotropic turbulence. By T. Tatsumi Ñ The characterization and crystal structure of caesium antimonide, a photoelectric surface material. By ? . H. Jack and ? . M. Wachtel Ñ Buoyant vortex rings. By J. S. Turner. (Plates 1 and 2) Ñ The binary system nitrogen-oxygen at 1.3158 atm. By A. H. Cockett Ñ The cubic and other structural forms of ice at low temperature and pressure. By M. Blackman and N. D. Lisgarten. (Plates 3 and 4) Ñ The effect of P-state and higher angular momentum hard-core interaction on nuclear binding. By D. J. Thouless Ñ The distribution of stress and velocity in glaciers and ice-sheets. By J. F. Nye Ñ On the quantum-statistical ergodic and H-theorems. By I. E. Farquhar and P. T. Landsberg No. 1217. 26 February 1957Ñ On reaction in the solid state. By G. I. Finch, F. R. S. And K. P. Sinha Ñ The thermal dissociation of tertiary butyl peroxide in presence of nitric oxide. By F. W. Birss, C. J. Danby and Sir Cyril Hinshelwood, P. R. S. Ñ The behaviour of the paramagnetic ions in the single crystals of some similar salts of the iron group of elements. I. Hydrated cupric salts. By A. Bose, S. C. Mitra and Sunil K. Datta Ñ An optical method of studying the diffraction from imperfect crystals. I. Modulated structures. By B. T. M. Willis. (Plates 5 to 7) Ñ An optical method of studying the diffraction from imperfect crystals. II. Crystals with dislocations. By B. T. M. Willis. (Plates 8 and 9) Ñ Submarine gravity measurements in the Atlantic Ocean, Indian Ocean, Red Sea and Mediterranean Sea. By R. W. Girdler and J. C. Harrison Ñ Studies in polymerization. XI. Reactions between polymer radicals and ferric chloride in non-aqueous media. By C. H. Bamford, A. D. Jenkins and R. Johnston Ñ The heat capacities of certain liquids. By D. Harrison and E. A. Moelwyn-HughesÑ Electron and lattice conduction in metals. By 1.1. Hanna and E. H. SondheimerÑ Derivation of the Brueckner many-body theory. By J. Goldstone Ñ Carbon formation in diffusion flames and the role of acetylene. By D. J. Cole and G. J. MinkoffNo. 1218. 12 March 1957Ñ The microstructure of dodecahedral faces of diamond. By Sayeda H. Emara and S. Tolansky, F. R. S. (Plates 10 to 13) Ñ The diffusion of load from a stiffener into an infinite elastic sheet. By E. H. Brown Ñ The limiting behaviour of atomic wave functions for large atomic number. By Charlotte Froese Ñ Finite extensions of fully ordered groups. By B. H. Neumann and J. A. H. Shepperd Ñ Aerodynamic forces on an oscillating aerofoil fitted with a spoiler. By L. C. Woods Ñ Approximate methods in high-frequency scattering. By D. S. Jones Ñ The study of crystal growth with the electron microscope. V. The crystal growth of n-pentacontanol-1. By I. M. Dawson and D. H. Watson. (Plates 14 and 15) Ñ Separation of hydrocarbon isomers by thermal diffusion. By C. J. Danby, J. D. Lambert and C. M. MitchellÑ An approximation for the radial distribution function. By A. E. Rodriguez Ñ Dissociation of molecular hydrogen ions (H+2) in gases. By ? . K. DamodaranÑ On the analogy between plates and disks. By W. Prager Ñ Collective motion in quantum mechanics. By T. H. R. Skyrme Ñ Adiabatic coupling between nuclear and electronic motion in molecules. II. By A. Dalgarno and R. McCarroll Ñ The nature of the initiation reaction in the polymerization of styrene sensitized by benzoyl peroxide. By J. C. Bevington No. 1219. 9 April 1957Ñ The background of counters and radiocarbon dating. By A. Moljk, R. W. P. Drever and S. C. Curran, F. R. S Ñ The infra-red spectrum and molecular configuration of sodium deoxyribonucleate. By G. B. B. M. Sutherland, F. R. S. And M. TsuboiÑ Spectra produced by shock waves, flames and detonations. By A. R. Fairbairn and A. G. Gaydon, F. R. S. (Plates 16 and 17) Ñ Rapid measurement of thermal conductivity by transient heating of a fine thermo-junction. By R. A. W. Hill Ñ Electrical octupole Coulomb excitation in rhodium. By G. A. Jones and W. R. Phillips Ñ The dynamics of twinning and the interrelation of slip and twinning in zinc crystals. By R. L. Bell and R. W. Cahn. (Plates 18 to 21) Ñ Spherical aberration and the information content of optical images. By G. Black and E. H. Linfoot Ñ The theory of chemical shifts in nuclear magnetic resonance. I. Induced current densities. By J. A. Pople Ñ The theory of chemical shifts in nuclear magnetic resonance. II. Interpretation of proton shifts. By J. A. Pople Ñ Plane problems in second-order elasticity theory. By J. E. Adkins and A. E. Green ., The Royal Society, 1957, 2.5, New York: G. P. Putnam's Sons, 1976. Book Club Edition. Hardcover. Good in fair dust jacket. Pencil erasure residue on fep. DJ has no price.. xviii, 492, [2] p. Illustrations. Occasional footnotes. Notes. Index. From WIkipedia: "Edward Teller (Hungarian: Teller Ede; January 15, 1908 September 9, 2003) was a Hungarian-American theoretical physicist, known colloquially as "the father of the hydrogen bomb", even though he claimed he did not care for the title. Teller made numerous contributions to nuclear and molecular physics, spectroscopy (the Jahn Teller and Renner Teller effects), and surface physics. His extension of Fermi's theory of beta decay (in the form of the so-called Gamow Teller transitions) provided an important stepping stone in the applications of this theory. The Jahn Teller effect and the BET theory have retained their original formulation and are still mainstays in physics and chemistry. Teller also made contributions to Thomas Fermi theory, the precursor of density functional theory, a standard modern tool in the quantum mechanical treatment of complex molecules. In 1953, along with Nicholas Metropolis and Marshall Rosenbluth, Teller co-authored a paper which is a standard starting point for the applications of the Monte Carlo method to statistical mechanics. Teller emigrated to the United States in the 1930s, and was an early member of the Manhattan Project charged with developing the first atomic bombs. During this time he made a serious push to develop the first fusion-based weapons as well, but these were deferred until after World War II. After his controversial testimony in the security clearance hearing of his former Los Alamos colleague J. Robert Oppenheimer, Teller was ostracized by much of the scientific community. He continued to find support from the U.S. government and military research establishment, particularly for his advocacy for nuclear energy development, a strong nuclear arsenal, and a vigorous nuclear testing program. He was a co-founder of Lawrence Livermore National Laboratory (LLNL), and was both its director and associate director for many years. In his later years he became especially known for his advocacy of controversial technological solutions to both military and civilian problems, including a plan to excavate an artificial harbor in Alaska using thermonuclear explosives. He was a vigorous advocate of Reagan's Strategic Defense Initiative. Throughout his life, Teller was known both for his scientific ability and his difficult interpersonal relations and volatile personality, and is considered one of the inspirations for the character Dr. Strangelove in the 1964 movie of the same name." From the Internet: "Stanley A. Blumberg, wasa Baltimore author, inventor and Middle Eastern expert who collaborated on two books about nuclear physicist Edward Teller. Armed with his ever-present pipe and ballpoint, Mr. Blumberg produced a torrent of articles over the years that encompassed a wide variety of issues from science to economics and the affairs of Israel." Also from the Internet: "Gwinn F. Owens, was a retired editor and editorial writer who made Baltimore's The Evening Sun's op-ed page a popular feature with readers and contributors.", G. P. Putnam's Sons, 1976, 2, VDM Verlag Dr. Müller, 2010-07-28. Paperback. Good., VDM Verlag Dr. Müller, 2010-07-28, 2.5, London: The Royal Society. Good. 1960. First Edition; First Edition. Library Buckram. Iv, 579 pages. With plates, map, diagrams, tables & illustrations. Original wrappers in. With library stamps & labels. Slight wear & some soiling to spine, covers & corners. ; Ex-Library; Quarto; SERIES A VOLUME 258 No. 1292. 4 October 1960Ñ Research at the Bernard Price Institute of Geophysical Research, University of the Witwatersrand, Johannesburg. By A. L. Hales. (Plates 1 and 2) Ñ Science in the ceramic industry. By N. F. Asthury. (Plates 3 to 6) Ñ Kinetics and mechanism of the ammonia synthesis. By A. Ozaki, Sir Hugh Taylor, F. R. S. And M. BoudartÑ Instability of a rotating liquid film with a free surface. By Chia-Shun Yih. (Plate 7) (With an appendix by J. F. C. Kingham) Ñ Finite two-dimensional cavities. By Chia-Shun YihÑ Experiments on the stability of viscous flow between rotating cylinders. II. Visual observations. By R. J. Donnelly and D. Fultz. (Plates 8 to 10) Ñ Excitation processes in helium. By A. H. Gabriel and D. W. O. Heddle No. 1293. 18 October 1960Ñ The excitation of the 23P state of helium by electron impact . By Sir Harrie Massey, F. R. S. And B. L. Moiseiwitsch Ñ An experimental study of friction and wear during abrasion of metals. By B. W. E. Avient, J. Goddard and H. Wilman. (Plate 11) Ñ The crystal structure of myoglobin. VI. Seal myoglobin. By Helen Scouloudi. (Plate 12) Ñ The scattering of 29 MeV 3He-particles by 1H, 2H, 3He and 4He nuclei. By D. J. Bredin, J. B. A. England, D. Evans, J. S. C. McKee, P. V. March, E. M. Mosinger and W. T. Toner Ñ The polymerization of water in benzene and toluene. By M. Gordon, C. S. Hope, L. D. Loan and Ryong-Joon Roe Ñ The ls-2s excitation of hydrogen atoms by proton impact. By A. E. Kingston, B. L. Moiseiwitsch and B. G. Skinner Ñ The ls-2s excitation of hydrogen atoms by electron impact. By A. E. Kingston, B. L. Moiseiwitsch and B. G. SkinnerÑ The oxidation of isobutane catalyzed by hydrogen bromide. By E. R. Allen and C. F. H. Tipper Ñ Experimental and theoretical determinations of bond lengths in naphthalene, anthracene and other hydrocarbons. By D. W. J. Cruickshank and R. A. Sparks No. 1294. 25 October 1960Ñ Similarity methods in radiation hydrodynamics. By L. A. Elliott Ñ The crystallography of the biscyclic dibenzacridines. I. The electron distribution in 1.2 : 8.9-dibenzacridine. By R. Mason Ñ A study of the relation between electrokinetic potential and surface charge density. By D. A. Haydon Ñ Electrical properties of crystal compounds of graphite. II. Acid salts of graphite. By L. C. F. Blackman, J. F. Mathews and A. R. Ubbelohde, F. R. S. Ñ Electrical properties of crystal compounds of graphite. III. The role of electron donors. By L. C. F. Blackman, J. F. Mathews and A. R. Ubbelohde, F. R. S. Ñ Photoelectric measurements on nickel and nickel oxide films. By J. S. Anderson, F. R. S. And D. F. Klemperer Ñ The infra-red spectra of crystals. By B. Szigeti Ñ The integral formulae for the variational solution of the molecular many-electron wave equation in terms of Gaussian functions with direct electronic correlation. By S. F. Boys Ñ The use of Gaussian (exponential quadratic) wave functions in molecular problems. I. General formulae for the evaluation of integrals. By K. SingerÑ The use of Gaussian (exponential quadratic) wave functions in molecular problems. II. Wave functions for the ground states of the hydrogen atom and of the hydrogen molecule. By J. V. L. Longstaff and K. Singer No. 1295. 8 November 1960Ñ Inclusion of fluorine compounds in faujasite. I. The physical state of the occluded molecules. By R. M. Barrer, F. R. S. And P. J. Reucroft Ñ Inclusion of fluorine compounds in faujasite. II. Heats of sorption. By R. M. Barrer, F. R. S. And P. J. Reucroft Ñ The effect of fluorine on the electronic spectra and ionization potentials of molecules. By R. Bralsford, P. V. Harris and W. C. Price, F. R. S. Ñ The theory of satellite orbits, based on a new co-ordinate system. By J. L. Brenner and G. E. Latta Ñ One-dimensional overlap functions and their application of Auger recombination in semiconductors. By A. R. Beattie and P. T. Landsberg Ñ Steady-state kinetics of formation of anodic oxide films on tantalum in sulphuric acid. By L. Young Ñ The effect of atmospheric rotation on the orbital plane of a near-earth satellite. By G. E. Cook and R. N. A. Plimmer Ñ Infra-red chemiluminescence. I. Infra-red emission from hydrogen chloride formed in the systems atomic hydrogen plus chlorine, atomic hydrogen plus hydrogen chloride, atomic hydrogen plus deuterium chloride, and atomic deuterium plus hydrogen chloride. By J. K. Cashion and J. C. Polanyi Ñ Infra-red chemiluminescence. II. Spectroscopic data. By J. K. Cashion and J. C. Polanyi Ñ Infra-red chemiluminescence. III. Infra-red emission from hydrogen bromide formed in the systems atomic hydrogen plus bromine, and atomic hydrogen plus hydrogen bromide. By J. K. Cashion and J. C. Polanyi ., The Royal Society, 1960, 2.5, Springer, 1996-10-02. Hardcover. Used: Good., Springer, 1996-10-02, 2.5, London: The Royal Society. Good. 1951. First Edition; First Edition. Library Buckram. Iv, 576 pages. With plates, diagrams, tables & illustrations. Original wrappers in. With library stamps & labels. Slight wear & slight soiling to spine, covers & corners. ; Ex-Library; Quarto; SERIES A VOLUME 207 No. A 1088. 7 June 1951 A discussion on bond energies and bond lengthsÑ Introduction. By M. G. Evans, F. R. S. Ñ Experimental methods for measurement of bond dissociation energies and heats of formation of radicals. By M. Szwarc Ñ Factors affecting bond strengths. By A. D. Walsh I. A possible new definition of electronegativity II. Empirical relations involving force constants and ionization potentials Ñ Comments on the paper by A. D. Walsh. By J. W. Linnett Ñ Comments on the paper by A. D. Walsh. By H. A. Skinner Ñ The ionic character of bonds and bond properties. By E. Warhurst Ñ Covalency, electrovalency and electronegativity. By T. L. Cottrell and L. E. Sutton Ñ Critical survey of the method of ionic-homopolar resonance. By C. A. CoulsonÑ Comments on the paper by C. A. Coulson. By W. Moffitt Ñ The energies and bond lengths of conjugated molecules. An introductory review of theoretical developments. By Sir John Lennard-Jones, F. R. S. Ñ Bond lengths in conjugated molecules : the present position. By C. A. Coulson . Ñ Comments on the paper by Sir John Lennard-Jones. By W. Moffitt Ñ The measurement of bond lengths in conjugated molecules of carbon centres. By J. M. Robertson, F. R. S. Ñ Order/length relationships for p-bonds in heteronuclear molecules. By E. G. Cox and G. A. Jeffrey Ñ The influence of conjugation on heterolytic dissociation energies. By H. C. Longuet-HigginsÑ References No. A 1089. 22 June 1951Ñ The atomic heats of the rare-earth elements. By D. H. Parkinson, F. E. Simon, F. R. S. And F. H. Spedding Ñ Application of the image-force model to the theory of contact rectification and of rectifier breakdown. By E. Billig Ñ Electronic wave functions. IV. Some general theorems for the calculation of SchrÜdinger integrals between complicated vector-coupled functions for many-electron atoms. By S. F. Boys Ñ Electronic wave functions. V. Systematic reduction methods for all SchrÜdinger integrals of conventional systems of antisymmetric vector-coupled functions. By S. F. Boys Ñ The plastic theory of bending of mild steel beams with particular reference to the effect of shear forces. By M. R. Home Ñ On the quantum theory of the elementary particles. II. Quantum field dynamics. By K. V. Roberts Ñ Measurements of the direction of arrival of short radio waves reflected at the ionosphere. By E. N. Bramley and W. Ross Ñ The solid-fluid equilibrium of helium above 5000 atm. Pressure. By F. A. Holland, J. A. W. Huggill and G. O. Jones Ñ On the production of diffraction gratings. I. The copying of plane gratings. By G. D. Dew and L. A. Sayce (Plates 1 and 2) No. A 1090. 6 July 1951Ñ A refractometric method for following the non-stationary state of chemical reactions. By N. Grassie and H. W. Melville, F. R. S. Ñ The invariant theory of isotropic turbulence in magneto-hydrodynamics. II. By S. Chandrasekhar, F. R. S. Ñ Bond lengths in naphthalene and anthracene. By C. A. Coulson, F. R. S. , R. Daudel and J. M. Robertson, F. R. S. Ñ Some theorems on perturbation theory. III. By E. C. Titchmarsh, F. R. S. Ñ On electrical effects due to sound waves in colloidal suspensions. By J. A. Enderby Ñ Order-disorder statistics. III. The antiferromagnetic and order-disorder transitions. By J. E. Brooks and C. Domb Ñ The thermal excitation of atmospheric oscillations. By M. V. Wilkes Ñ Motion in the wake of a thin plate at zero incidence. By D. Meksyn Ñ The quantum mechanics of the electron. By H. T. Flint and E. Marjorie Williamson Ñ The visible emission spectra of iodine and bromine monofluorides and their dissociation energies. By R. A. Durie. (Plate 3) Ñ The renormalization method in quantum electrodynamics. By F. J. Dyson Ñ Tensor identities in wave-tensor calculus. By C. W. Kilmister Ñ Iterative procedures related to relaxation methods for eigenvalue problems. By S. H. CrandallÑ Alkali-metal ions in the metabolism of Bact. Lactis aerogenes. I. Experiments on the uptake of radioactive potassium, rubidium and phosphorus. By A. A. Eddy, T. C. N. Carroll, C. J. Danby and Sir Cyril Hinshelwood, FOR. SEC. R. S. (Abstract) Ñ Alkali-metal ions in the metabolism of Bact. Lactis aerogenes. II. Connexion with viability, growth rate and enzyme activity. By A. A. Eddy and Sir Cyril Hinshelwood, FOR. SEC. R. S. (Abstract) Ñ Alkali-metal ions in the metabolism of Bact. Lactis aerogenes. III. General discussion of their role and mode of action. By A. A. Eddy and Sir Cyril Hinshelwood, FOR. SEC. R. S. (Abstract) No. A 1091. 23 July 1951Ñ The spontaneous magnetization of cobalt. By H. P. Myers and W. Sucksmith, F. R. S. Ñ The frequencies and the anharmonicities of the normal modes of oscillation of alkali halide crystals. I. Lattice oscillations. By Sir K. S. Krishnan, F. R. S. And Sanat Kumar RoyÑ The kinetics of the oxidation of gaseous methyl ethyl ketone. I. By J. Bardwell and Sir Cyril Hinshelwood, FOR. SEC. R. S. Ñ The kinetics of the oxidation of gaseous methyl ethyl ketone. II. By J. Bardwell Ñ The densities and limiting densities of vapours. By F. L. Casado, Doreen S. Massie and R. Whytlaw-Gray, F. R. S. Ñ The crystal structure of ribonuclease. I. By C. H. Carlisle and Helen Scouloudi Ñ Clouds produced in an expansion chamber by ultra-violet light. By F. J. M. Farley Ñ The reaction of methane and deuterium on evaporated nickel catalysts. By C. Kemball Ñ The flow of glaciers and ice-sheets as a problem in plasticity. By J. F. Nye ., The Royal Society, 1951, 2.5, London: The Royal Society. Good. 1952. First Edition; First Edition. Library Buckram. Iv, 568 pages. With plates, (folding) diagrams, tables & illustrations. Original wrappers in. With library stamps & labels. Slight wear & slight soiling to spine, covers & corners. ; Ex-Library; Quarto; SERIES A VOLUME 210 No. A 1100. 7 December 1951Ñ East Mailing Research Station. By F. R. Tubbs. (Plates 1 to 4) Ñ The fluctuations of density in isotropic turbulence. By S. Chandrasekhar, F. R. S Ñ The gravitational instability of an infinite homogeneous turbulent medium. By S. Chandrasekhar, F. R. S. Ñ Some theorems on perturbation theory. IV. By E. C. Titchmarsh, F. R. S. Ñ The effects of organic substances on the upper limits of inflammability of some hydrogen-carbon monoxide-air mixtures. By G. Dixon-Lewis and J. W. Linnett. Ñ The work functions of copper, silver and aluminium. By E. W. J. Mitchell and J. W. MitchellÑ On a phenomenological approach to meson production in nucleon-nucleon collisions. By E. A. Power Ñ On a certain type of integral associated with circular cylinders. By J. M. Hammersley. Ñ The thermal decomposition of barium azide. By J. G. N. Thomas and F. C. Tompkins Ñ Order-disorder statistics. IV. A two-dimensional model with first and second interactions. By C. Domb and R. B. Potts Ñ The mechanism of the training of Bact. Lactis aerogenes to D-arabinose. By A. C. Baskett and Sir Cyril Hinshelwood, For. Sec. R. S. (Abstract) Ñ Adaptation and Mendelian segregation in the utilization of galatose by yeast. By B. C. Kilkenny and Sir Cyril Hinshelwood, For. Sec. R. S. (Abstract) No. A 1101. 20 December 1951Ñ The research laboratories of Associated Electrical Industries Ltd. By Sir Arthur Fleming, B. G. Churcher and L. J. Davies. (Plates 5 to 10) Ñ The diamagnetism of free electrons. By E. H. Sondheimer and A. H. Wilson, F. R. S. Ñ The molecular orbital theory of chemical valency. IX. The interaction of paired electrons in chemical bonds. By Sir John Lennard-Jones, F. R. S. And J. A. Pople Ñ Infra-red spectra and the solid state. III. Potassium bifluoride. By G. L. CotÄ and H. W. Thompson, F. R. S. Ñ Infra-red spectra and the solid state. IV. Borofluorides. By G. L. CotÄ and H. W. Thompson, F. R. S. Ñ The electronic structure of the oxygen molecule. By W. Moffitt Ñ Atoms in molecules and crystals. By W. MoffittÑ Perturbation characteristic functions and their application to electron optics. By P. A. Sturrock Contents No. A 1102 7 January 1952Ñ The rates of evaporation from different faces of rhombic sulphur. By Sir Eric Rideal, F. R. S. And Philippa M. Wiggins Ñ Equilibria in the halogenation of some organic substances in aqueous solution. By R. P. Bell, F. R. S. And E. Gelles Ñ Kinetics of the base-catalyzed halogenation of 2-carbethoxycyclohexanone. By R. P. Bell, F. R. S. And H. L. Goldsmith Ñ p-s Electronic states in molecules. I. The Hƒckel approximation. By S. L. Altmann Ñ p-s Electronic states in molecules. II. The singlet spectrum of ethylene and derivatives. By S. L. Altmann Ñ Oriented chemical overgrowths and surface topography. By D. W. Pashley. (Plate 11) Ñ The thermo-osmosis of gases through a membrane. I. Theoretical. By K. G. Denbigh and Gertrud Raumann Ñ Threshold behaviour in quantum field theory. By R. J. Eden Ñ Experiments with oscillating disk systems in liquid helium II. By A. C. Hollis-Hallett Ñ The general static spherically symmetric solution in Einstein+s unified field theory. By W. B. Bonnor Ñ Relations between delta functions. By B. Gross and H. Pelzer No. A 1103. 22 January 1952 Ñ Spectroscopic studies of the hydrogen-oxygen explosion initiated by the flash photolysis of nitrogen dioxide. By R. G. W. Norrish, F. R. S. And G. Porter. (Plates 12 and 13) Ñ The photo-degradation of polymethylmethacrylate. I. The mechanism of degradation. By P. R. E. J. Cowley and H. W. Melville, F. R. S. Ñ The frequencies and the anharmonicities of the normal modes of oscillation of alkali halide crystals. II. Low-frequency acoustic modes. By Sir K. S. Krishnan, F. R. S. And Sanat Kumar Roy . Ñ The classification of states of the nuclear f-shell. By B. H. Flowers Ñ A new method of solving the Born-Green equation for the radial distribution function. By A. G. McLellan. Ñ The thermo-osmosis of gases through a membrane. II. Experimental. By K. G. Denbigh and Gertrud Raumann Ñ Studies of nuclear collisions involving 8 MeV deuterons by the photographic method. IV. Angular distributions of the particles produced by the bombardment of helium and oxygen. By E. J. Burge, H. B. Burrows, W. M. Gibson and J. Rotblat. Ñ Studies of nuclear collisions involving 8 MeV deuterons by the photographic method. V. Angular distributions of charged particles from the bombardment of nitrogen and argon. By W. M. Gibson and E. E. Thomas Ñ The second virial coefficients of mixed organic vapours. By J. H. P. Fox and J. D. Lambert ., The Royal Society, 1952, 2.5, Berlin: Springer, 1996. Near Fine, unmarked book with very minor foxing to half-title; pictorial boards, no DJ. . First Edition. Hard Cover. Fine/No Jacket. 8vo - over 7¾" - 9¾" tall., Springer, 1996, 5, Springer, 2011-01-25. Softcover reprint of hardcover 1. Paperback. Used:Good., Springer, 2011-01-25, 0, Springer, 2011-01-27. Paperback. Used: Good., Springer, 2011-01-27, 2.5, paperback. Good. Access codes and supplements are not guaranteed with used items., 2.5, paperback. New. Ship out in 2 business day, And Fast shipping, Free Tracking number will be provided after the shipment.Paperback. Pub Date: 2013 02 Pages: 255 Language: Chinese in Publisher: Tongji University Press. in accordance with the actual situation of the general engineering undergraduate college students in the reform of the system and the content of the old college physics textbook bold exploration . The condensed physics (Vol.1) still remained the traditional model. appropriate to update the teaching system and content. depth and breadth of a more appropriate. while drawing on a 21st century curriculum materials published in recent years. some advanced thinking and excellent way to strive to achieve the modernization of classical physics. physical frontier & P materialized . in particular. to facilitate the students' self-learning and teaching of general engineering undergraduate institutions. teachability. and learnability double characteristics. The book is divided on two of four content. A mechanics; 2 thermal base; 3 electromagnetics; 4 wave optics. modern physics. Britannica teaching reference a few hours to about 120 hours for general engineering undergraduate institutions. The condensed physics (Vol.1) as the College of Engineering in the professional and science textbooks college physics course for non-physics major. is also available for other professional selection and college physics teacher teaching reference. Contents: Chapter 1 Preface a mechanical particle kinematics 1.1.1 1.1 Description of particle motion reference system coordinate system 1.1.2 particle. the particle system 1.1.3 particle motion vector described 1.2 common coordinate system selection 1.2.1 Cartesian coordinate system. projectile motion 1.2.2 of natural coordinates. tangential acceleration and normal acceleration 1.3 relative motion of this chapter Summary thinking about the law of conservation of classical mechanics Chapter 2 of title 1 Problem 1 2.1 Newton's laws of motion and inertial frames 2.1.1 Newton 2.2 Momentum Theorem 2.1.2 inertial frame formulation and its application of the laws of motion inertial force in the accelerated reference frame moving with the non-inertial 2.1.3 Ping 2.1.4 inertial centrifugal force uniform rotation in the reference system and the law of conservation of momentum 2.2.1 Impulse Theorem 2.2.2 system of particles and particle momentum momentum theorem 2.2.3 2.2.4 rocket flight 2.2.5 centroid and center of mass motion momentum conservation law Theorem 2.3 kinetic energy theorem and conservation of mechanical energy the law 2.3.1 reactive and particle kinetic energy theorem 2.3.2 2.3.3 The potential energy curves of the conservative forces and non-conservative force and potential energy and the application of the 2.3.4 system of particles kinetic energy theorem and functional principle 2.3.5 Machinery 2.3.6 two-body collision of 2.4 angular momentum and the law of conservation of angular momentum conservation law and the law of conservation of energy 2.4.1 of angular momentum 2.4.2 torque and of angular momentum theorem 2.4.3 particle angular momentum conservation law Theorem 2.4.5 CMCS 2.4.4 angular momentum of the system of particles angular momentum theorem 2.5 symmetry and the law of conservation of 2.5 .1 What is symmetry? 2.5.2 symmetry of physical laws 2.5.3 space-time symmetries and momentum. angular momentum and energy conservation law in this chapter Summary thinking the title 2 Problem 2 Chapter 3 rigid body mechanics 3.1 rigid body kinematics 3.1.1 3.1.2 rigid body rigid body and research methods translational and fixed axis rotation 3.1.3 Description 3.1.4 uniformly variable physical quantities of rigid body rotation rotation the formula 3.1.5 Kok amount and line amount of rigid body dynamics in the relationship between 3.2 3.2.1 rigid body around a fixed axis rotation of shaft angular momentum the amount 3.2.3 3.2.2 rotational inertia rigid body rotating about fixed axis of rotation theorem 3.2.4 rigid body fixed axis rotation angular momentum theorem 3.2.5 rigid body fixed axis rotation kinetic energy theorem 3.2.6 rigid body precession and rotation effect This chapter Summary Questions the basic principle of the limitations of the classical mechanics of absolute time and space 4.1.4 4.2 4.1 Background 4.1.1 The mechanics of special relativity produce 3 Problem 3 Chapter 4 special relativity principle of relativity 4.1.2 4.1.3 classical mechanics Galilean transformation of special relativity 4.3.1 for the 4.2.3 relativistic Lorentz transform basic assumptions of special relativity 4.2.1 4.2.2 Lorentz transformation speed transform 4.3 Special Theory of Relativity of Time and Space the relative sexual 4.3.2 intervals relative 4.3.3 The length of the relativity of 4.4 Special Relativity dynamics foundation 4.4.1 4.4.2 force and rate of mass and momentum 4.4.3 power and kinetic energy of the 4.4.4 static energy. total energy and quality energy relationship a 4.4.5 of energy and momentum in this chapter 5.1.3 thermodynamic processes 5.2 Temperature 5.2.1 Zeroth Law of Thermodynamics 5.2 Summary thinking questions 4 exercises 4 2 thermal basis of Chapter 5 thermal Preliminaries 5.1 thermodynamic system state and process 5.1.1 thermodynamic system 5.1.2 thermodynamic state .2 thermometer and temperature scale 5.3 thermal motion of molecules and molecular force 5.3.1 usual material is composed of a large number of molecules (or atoms) 5.3.2 molecular thermal motion 5.3.3 Molecular Forces 5.4 state parameters and equation of state 5.4.1 state parameters. experimental laws 5.4.2 gas equation of state. 5.4.3 ideal gas equation of state of an ideal gas 5.4.4 van der Waals equation 5.5 the basic concepts of statistical regularity 5.5.1 Events 5.5.2 Probability 5.5.3 statistical average and Chapter 6 of the statistical laws of equilibrium statistical regularities 6.1 ideal gas pressure and temperature 6.1.1 Ideal Gas microscopic models and statistical assumptions 6.1.2 ideal gas pressure formula 6.1.3 the temperature of the ideal gas formula 6.2 Maxwell velocity distribution law 6.2 .1 rate distribution law 6.2.2 rate distribution function 6.2.3 Maxwell speed distribution law 6.2.4 three rates 6.3 Boltzmann distribution law 6.3.1 Boltzmann distribution law 6.3.2 gravitational field of particle height the distribution 6.4 6.4.1-degree-of-freedom 6.4.2 energy equipartition theorem statistical regularity 6.5.1 average collision frequency 6.5.2 6.4.3 ideal gas the internal energy the 6.5 molecule collision frequency mean free path equipartition This chapter Summary Questions Exercise 6. Chapter 7. the first law of thermodynamics 7.1 thermodynamics first law 7.1.1. 7.2.1 isovolumic power and heat 7.1.2 first law of thermodynamics 7.2 ideal gas equivalent process in process 7.2.2 pressure process 7.2 .3 isothermal process 7.3 ideal gas adiabatic process and multi-process 7.3.2 7.3.1 adiabatic process multi-process 7.4 cycle and Carnot cycle 7.4.1 cycle 7.4.2 heat engine efficiency 7.4.3 chillers and refrigeration coefficient 7.4 .4 Carnot cycle this chapter Summary thinking Question 7 Problem 7 Chapter 8 of the second law of thermodynamics 8.1 formulation of the second law of thermodynamics 8.1.1 reversible process irreversible process 8.1.2 The second law of thermodynamics expressed 8.2 Carnot Theorem 8.2.1 the contents of the Carnot theorem 8.2.2 Kano proof of the theorem 8.2.3 thermodynamic temperature scale 8.3 entropy and entropy increase principle 8.3.1 Clausius equation 8.3.2 entropy principle of entropy increase 8.3.4 Temperature entropy diagram 8.4 8.3.3 The statistical significance of the second law of thermodynamics 8.4.1 free expansion of an ideal gas irreversible statistical significance 8.4.2 thermodynamic probability Boltzmann entropy formula 8.4.3. the second law of thermodynamics the scope of this chapter Summary thinking questions 8 3 electromagnetic learn basic 9.1 of Chapter 9 vacuum electrostatic field electrostatic phenomenon 9.1.1 charge and charge conservation law 9.1.2 9.2 9.2.1 of the description of the electrostatic field of the electric field and electric field strength 9.2.2 field strength superposition principle 9.3 vacuum electrostatic Coulomb's law 9.4.3 potential of 9.4 electrostatic field loop theorem and the potential field of the Gauss theorem 9.3.2 9.3.1 electric field lines and electric flux Gauss theorem and application of the electrostatic field loop Theorem 9.4.2 9.4.1 electrostatic field potential difference and potential superposition principle 9.4.4 electric field strength and potential gradient relations Question 9 Exercise 9 Chapter 10 This chapter Summary thinking conductor and dielectric electrostatic field 10.1 Conductors electrostatic field 10.1.1 conductor of static equilibrium 10.1.2 of static equilibrium the charge distribution on the conductor at 10.1.3 Application of electrostatic phenomena 10.2 capacitance and capacitor 10.2.1 the isolated conductor capacitance 10.2.2 capacitor series and parallel capacitance 10.2.3 capacitor 10.3 dielectric electrostatic field 10.3.1 dielectric and the polarization mechanism 10.3.2 dielectric polarization law 10.3.3 medium Gauss theorem the electric displacement 10.3.4 dielectric role 10.4 electrostatic field energy in the capacitor the 10.4.1 charging system electrostatic 10.4.2 farms energy and energy density of this chapter Summary Appendix Questions 10 Exercise 10 course hours allocation recommendations Satisfaction guaranteed,or money back., 6, paperback. New. Ship out in 2 business day, And Fast shipping, Free Tracking number will be provided after the shipment.Pub Date: 2000 02 Pages: 358 Publisher: Atomic Energy Press Modern quantum mechanics tutorial (revision) of the accumulation of years of teaching. based on ministerial outline requirements. streamline the tedium and obsolete appropriate introduction to quantum mechanics in The application of modern science and technology. the final chapter on recent theoretical results of the application of basic aspects of quantum mechanics. materials science. superconductivity research and quantum mechanics made focus on. Contents: Chapter 1. the experimental basis of quantum mechanics & 1.1 difficulties of classical physics & 1.2 Planck-Eirtein light quantum theory of Compton effect & 1.3 Bohr theory of atomic structure & 1.4 deoglie assumptions physical particles. wave-particle duality Exercises Chapter 2 of the wave function and the Schrodinger equation & 2.1 wave function and its statistical interpretation of & 2.2 of the wave function of momentum as the independent variable state superposition principle & 2.3 & 2.4 Schrodinger equation & 2.5 probability flux density and probability conservation & 2 the .6 one-dimensional square potential well & 2.7 one-dimensional harmonic oscillator & 2.8 barrier throughout & mechanical quantities & the 3.1 mechanical quantities operator said 2.9 one-dimensional periodic potential Exercises Chapter 3 quantum mechanics & 3.2 the momentum operator & 3.3 angular momentum operator & 3.4 Hermitian operator eigenfunction nature & 3.5 mechanical quantities measured value and the average & 3.6 different mechanical quantities at the same time to determine the value of the conditional uncertainty relations & 3.7 conserved quantity of the average mechanical quantity changes over time & 3.8 center force field: the movement of electrons in the Coulomb field & 3.9 hydrogen atoms Exercises Chapter 4 Representation Theory & the state representations 4.1 & 4.2 mechanical quantities operator matrix & 4.3 matrix representation of quantum mechanics & 4.4 representation transformation & 4.5 Dirac symbol & 4.6 Particle number appearance & of 4.7 the Schrodinger image and Heisenberg images Exercises Chapter 5 approximation method is & 5.1 nondegenerate stationary state micro scrambling Theory & 5.2 degenerate perturbation theory Stark effect & 5.3 quantum transition & 5.4 light absorption and stimulated emission selection rules & 5.5 the spontaneous emission of light & 5.6 Principle of Laser & 5.7 variational method Exercises Chapter 6 Scattering Theory & 6.1 General Description of the scattering problem & 6.2 Wave Method & 6.3 Born approximation Exercises Chapter 7 of spin angular momentum & of 7.1 electron spin & 7.2 spin wave function the spin operators Pauli equation & 7 .3 simple Zeeman effect & 7.4 Magnetic Resonance & 7.5 two angular momentum coupling C-G coefficient 7.6 spectral fine structure of complex Zeeman effect & 7.7 spin singlet and triplet exercises Chapter 8 multi-particle system & 8.1 full homosexual principle Bose sub and the Fermi sub & 8.2 full with the wave function of the particle system Pauli principle & 8.3 helium Chung helium and positive helium & 8.4 hydrogen molecules chemically exercises of Chapter 9 of modern technology in quantum mechanics & 9. the gauge invariance of the Schrodinger equation for an electromagnetic field when & 9.2 Landau level quantum Hall effect & 9.3 Meissner effect flux quantization & 9.4 Aharnonov-Bohm effect Berry & 9.5 Josephson effect & 9.6 Mossbauer effect Exercise answers Appendix I . function II second order linear ordinary differential equations. series solutions Hermite polynomials IV associative Legendre polynomials and spherical harmonic function V. radial equation of the electrons in the Coulomb field solution . Bessel equation VII. commonly used physical constants table Satisfaction guaranteed,or money back., 6, London: Kluwer Academic Publishers, 2000. Cloth/Laminated Boards. Like New/No d/j as Published. Type: Book This is one of two volumes which together comprise 40 papers coming from the most outstanding contributions to the third European Quantum Systems in Chemistry and Physics Workshop held in Granada, Spain (1997). These books cover a spectrum of scientific research from quantum-mechanical many-body methods to important applications and computational developments, and from atoms and molecules to condensed matter. The first volume is subtitled "Basic Problems and Model Systems", and includes the following topics: density matrices and density functionals, electron correlation effects, relativistic formulations, valence theory, and nuclear motions. The second volume is subtitled "Advanced Problems and Complex Systems" and covers the following topics: response theory, condensed matter, reactive collisions and chemical reactions and computational chemistry and physics. 421pp., Kluwer Academic Publishers, 2000, 5, Annual Reviews, 2022. Hardbound. New Book. Hardbound. This volume presents 20 articles detailing research in physical chemistry. They cover protein structure prediction with mass spectrometry data, ultrafast imaging of molecules with electron diffraction, chemical dynamics under strong light-matter coupling, biomolecular chemistry at ultralow temperatures, eScience infrastructures in physical chemistry, double and charge-transfer excitations in time-dependent density functional theory, quantitative surface-enhanced spectroscopy, methods for neural network potentials, capturing atom-specific electronic structural dynamics of transition-metal complexes with ultrafast soft x-ray spectroscopy, vibrational spectroscopy of the water dimer at jet-cooled and atmospheric temperatures, and examining transition-metal-boron bonds and novel aromaticity in small metal-doped boron clusters using photoelectron spectroscopy. Others address stochastic vector techniques in ground-state electronic structure, calculating multidimensional optical spectra from classical trajectories, multistate ring polymer molecular dynamics, laser-induced Coulomb explosion imaging of aligned molecules and molecular dimers, intramolecular vibrations in excitation energy transfer, imaging dynamic processes in multiple dimensions and length scales, the photophysics of two-dimensional semiconducting organic-inorganic metal-halide perovskites, vibration-cavity polariton chemistry and dynamics, and classical and nonclassical nucleation and growth mechanisms for nanoparticle formation. Contributors work in chemistry and other sciences in the US, Asia, Israel, and Europe. (2022 Ringgold, Inc., Portland, OR), Annual Reviews, 2022, 0, Springer Fairlark. Good. / / / 24 x 16.4 x 2.6 cm / 0.7 kg, Springer Fairlark, 2.5, London: Kluwer Academic Publishers, 2000. Cloth/Laminated Boards. Like New/No d/j as Published. Type: Book This is one of two volumes which together comprise 40 papers coming from contributions to the third European Quantum Systems in Chemistry and Physics Workshop held in Granada, Spain (1997). These books cover a spectrum of scientific research work from quantum-mechanical many-body methods to important applications and computational developments, and from atoms and molecules to condensed matter. The first volume is subtitled "Basic Problems and Model Systems", and includes the following topics: density matrices and density functionals, electron correlation effects, relativistic formulations, valence theory, and nuclear motions. The second volume is subtitled "Advanced Problems and Complex Systems" and covers the following topics: response theory, condensed matter, reactive collisions and chemical reactions, and computational chemistry and physics.399pp., Kluwer Academic Publishers, 2000, 5, Paperback. New., 6, Paperback. New. Concepts and Methods in Modern Theoretical Chemistry: Statistical Mechanics, the second book in a two-volume set, focuses on the dynamics of systems and phenomena. A new addition to the series Atoms, Molecules, and Clusters,this book offers chapters written by experts in their fields. It enables readers to learn how concepts from ab initioquantum chemistry and density functional theory (DFT) can be used to describe, understand, and predict chemical dynamics. This book covers a wide range of subjects, including discussions on the following topics: Time-dependent DFT Quantum fluid dynamics (QFD) Photodynamic control, nonlinear dynamics, and quantum hydrodynamics Molecules in a laser field, charge carrier mobility, and excitation energy transfer Mechanisms of chemical reactions Nucleation, quantum Brownian motion, and the third law of thermodynamics Transport properties of binary mixtures Although most of the chapters are written at a level that is accessible to a senior graduate student, experienced researchers will also find interesting new insights in these experts' perspectives. This book provides an invaluable resource toward understanding the whole gamut of atoms, molecules, and clusters.| Author: Swapan Kumar Ghosh, Pratim Kumar Chattaraj| Publisher: Crc Press| Publication Date: Sep 23, 2019| Number of Pages: 350 pages| Language: English| Binding: Paperback| ISBN-10: 0367380315| ISBN-13: 9780367380311, 6, Springer, 2013. Paperback. New. 204 pages. 9.25x6.10x0.46 inches., Springer, 2013, 6, New York, NY: Oxford University Press, USA, 1989. Hard cover. Good. No dust jacket. Ex-library.. Sewn binding. Cloth over boards. 352 p. International Series of Monographs on Chemistry. Audience: General/trade., Oxford University Press, USA, 1989, 2.5<

1989, ISBN: 9780195042795

Hard cover, Sewn binding. Cloth over boards. 352 p. International Series of Monographs on Chemistry. Audience: General/trade., Good. No dust jacket. Ex-library., Quantum Mechanics|Chemist… Mehr…

Hard cover, Sewn binding. Cloth over boards. 352 p. International Series of Monographs on Chemistry. Audience: General/trade., Good. No dust jacket. Ex-library., Quantum Mechanics|Chemistry|Biophysics|Chemistry|Mathematical Physics|Physics|Quantum Mechanics|Science, New York, NY, [PU: Oxford University Press, USA]<

1989, ISBN: 9780195042795

New York, NY: Oxford University Press, USA, 1989. Hard cover. Good. No dust jacket. Ex-library.. Sewn binding. Cloth over boards. 352 p. International Series of Monographs on Chemistry.… Mehr…

New York, NY: Oxford University Press, USA, 1989. Hard cover. Good. No dust jacket. Ex-library.. Sewn binding. Cloth over boards. 352 p. International Series of Monographs on Chemistry. Audience: General/trade., Oxford University Press, USA, 1989, 2.5<

1989, ISBN: 9780195042795

Hardcover, Access codes and supplements are not guaranteed with used items. May be an ex-library book., Gebraucht, guter Zustand, [PU: Oxford University Press]