More information about this seller Contact this seller 5. More information about this seller Contact this seller 6.
Ships from the UK. Former Library book. Shows some signs of wear, and may have some markings on the inside. Seller Inventory GRP More information about this seller Contact this seller 7. More information about this seller Contact this seller 8. Condition: G. No jacket. Probably used, but clean and readable throughout, a decent hardback copy. More information about this seller Contact this seller 9. Published by Longman Group Ltd. From: edconroybooks Troy, NY, U. About this Item: Longman Group Ltd. Res t of book in Fine Like New condition.
More information about this seller Contact this seller Seller Inventory PAB About this Item: Paperback. The book has been read but remains in clean condition.
All pages are intact and the cover is intact. Some minor wear to the spine. Seller Inventory GOR Published by Oliver and Boyd: Interscience Pu From: Orca Knowledge Systems, Inc. Novato, CA, U. First Edition. No DJ. He was part of the Manhattan Project. No other marks in very lightly read book.
Special Functions of Mathematical Physics and Chemistry by Sneddon Ian N
This book has soft covers. In good all round condition. Published by Oliver and Boyd Ltd About this Item: Oliver and Boyd Ltd, Dust Jacket Condition: very good. Published by Oliver and Boyd, About this Item: Oliver and Boyd, , Published by Interscience Publishers About this Item: Interscience Publishers, Condition: Used; Good. Fast Dispatch. Expedited UK Delivery Available. Excellent Customer Service. Spine worn. Seller Inventory BBI From: Oakleigh London, United Kingdom. No Jacket. Great Condition for age. No markings on the pages, and all in tact and in place.
The original owners name and address is written on inside cover as well as a sticker from the first bookshop. Occasional dust marks and some yellowing of the paper due to age.
See pictures. Book Published by Addison-Wesley Longman Ltd Satisfaction Guaranteed! Book is in Used-Good condition. Pages and cover are clean and intact. Used items may not include supplementary materials such as CDs or access codes. May show signs of minor shelf wear and contain limited notes and highlighting. Grand canonical ensemble. Bose-Einstein and Fermi-Dirac distributions. Free electron gas, Pauli paramagnetism. Blackbody radiation. Bose-Einstein condensation.
Einstein model of lattice vibrations. Phase diagrams, phase equilibria and phase transitions. Mean-fjeld theory of liquid-gas transition Van der Waals model and ferromagnet-paramagnet transition Weiss' molecular field theory. Heisenberg exchange interaction and the origin of ferromagnetism. Elementary ideas on Ising and Heisenberg models of ferromagnetism. Basic principles of quantum mechanics. Probabilities and probability amplitudes. Linear vector spaces. Bra and ket vectors. Completeness, orthonormality, basis sets.
Change of basis. Eigenstates and eigenvalues.
Special Functions of Mathematical Physics and Chemistry by Sneddon Ian N - AbeBooks
Position and momentum representations. Wavefunctions, probability densities, probability current. Schrodinger equation. Expectation values. Generalized uncertainty relation. One dimensional potential problems Particle in a box. Potential barriers. Motion in three dimensions. Central potential problem.
Orbital angular momentum operators. Spherical harmonics.
Eigenvalues of orbital angular momentum operators. Charged particle in a uniform constant magnetic field, energy eigenvalues and eigenfunctions. Schrodinger and Heisenberg pictures Heisenberg equation of motion. Interaction picture. Time-independent perturbation theory. Nondegenerate and degenerate cases. Time-dependent perturbation theory. Transition probabilities. Sudden and adiabatic approximations. Fermi golden rule. Geometric optics: Eikonal equations, Fermat's principle and appications to laws of reflection and refraction.
Parseval optics, ABCD matrix description of lenses, mirrors, etc. Aberrations: Wavefront aberration coefficients, Transverse ray coefficients, spherical aberration, coma, astigmatism, field curvature, distortions and aberration reduction. Dispersion: phase and group velocity, material dispersion, normal and anomalous dispersion, chromatic aberration. Fourier techniques: Fourier analysis, Fourier transforms, diffraction of light, Fourier transformation by propagation, lenses and their description in Fourier transformation and imaging.
Spread functions, modulation transfer functions, convolution, etc. Diffraction theory of image formation, optical data processing, Coherence, classical coherence functions, autocorrelation function and time coherence. Spatial coherence, mutual coherence functions, visibility of fringes. Crystal optics: double refraction. Polarization and anisotropy of wave propagation in crystals, dielectric and optical indicatrix, uniaxial and biaxial crystals.
Waveguide optics: propogation and dispersion in cylindrical and planar waveguides.
Classification of condensed matter: crystalline, noncrystalline, nanophase solids, liquids. Crystalline solids: Bravais lattices, crystal systems, point groups, space groups and typical structures.