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and 11. Overall, this is a very good textbook for an undergrade ate introductory course on electronic properties of materials. It can also be considered as a good starting point for more advanced texts. Reviewer: Anthony J. Pedraza is a professor of materials science and engineering at the University of Tennessee. His current research interests include electronic packaging materials science, laser processing of materials, sputter deposition, phase transformations and solidification, radiation damage, amorphous metals, residual micro- and macrostresses, electrolytic and electroless metallicfilms,and x-ray diffraction. Mathematical Techniques in Crystallography and Materials Science E. Prince (Springer-Veiiag, 1994) ISBN: 0387-5811-54
Mathematical Techniques in Crystallography and Materials Science treats the mathematical basis of crystallographic analysis, including linear algebra, point and space groups, vectors and tensors, data fitting, statistical analysis, crystal structure refinement, and fast Fourier transforms. The title notwithstanding, this book provides a fairly complete grounding in the mathematics of crystallography and little if any coverage of unrelated areas of materials science. This bias is foreshadowed by the misspelling of "materia
