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 Kasap, Safa
 3rd ed.  Boston : McGrawHill, c2006.
 Description
 Book — xiii, 874 p. : ill. ; 24 cm. + 1 CDROM (4 3/4 in.).
 Summary

 1 Elementary Materials Science Concepts
 2 Electrical and Thermal Conduction in Solids
 3 Elementary Quantum Physics
 4 Modern Theory of Solids
 5 Semiconductors
 6 Semiconductor Devices
 7 Dielectric Materials and Insulation
 8 Magnetic Properties and Superconductivity
 9 Optical Properties of Materials Appendix A: Major Symbols and Abbreviations B Elements to Uranium C Constants and Useful Information.
 (source: Nielsen Book Data)
 1 Elementary Materials Science Concepts
 2 Electrical and Thermal Conduction in Solids
 3 Elementary Quantum Physics
 4 Modern Theory of Solids
 5 Semiconductors
 6 Semiconductor Devices
 7 Dielectric Materials and Insulation
 8 Magnetic Properties and Superconductivity
 9 Optical Properties of Materials Appendix A: Bragg's Diffraction Law and XDiffraction Appendix B: Flux, Luminous Flux and the Brightness of Radiation Appendix C: Major Symbols and Abbreviations Appendix D: Elements to Uranium Appendix E: Constants and Useful Information.
 (source: Nielsen Book Data)
(source: Nielsen Book Data) 9780071244589 20160527
"Principles of Electronic Materials and Devices, Third Edition", is a greatly enhanced version of the highly successful text "Principles of Electronic Materials and Devices, Second Edition". It is designed for a first course on electronic materials given in Materials Science and Engineering, Electrical Engineering, and Physics and Engineering Physics Departments at the undergraduate level. The third edition has numerous revisions that include more beautiful illustrations and photographs, additional sections, more solved problems, worked examples, and endofchapter problems with direct engineering applications. The revisions have improved the rigor without sacrificing the original semiquantitative approach that both the students and instructors liked and valued. Some of the new endofchapter problems have been especially selected to satisfy various professional engineering design requirements for accreditation across international borders. Advanced topics have been collected under Additional Topics, which are not necessary in a short introductory treatment.
(source: Nielsen Book Data) 9780073104645 20160528
 Online
Engineering Library (Terman)
Engineering Library (Terman)  Status 

On reserve: Ask at circulation desk  
TK453 .K26 2006  Unknown 2hour loan 
MATSCI19501, MATSCI20501, PHOTON20501
 Course
 MATSCI19501  Waves and Diffraction in Solids
 Instructor(s)
 Dionne, Jennifer A
 Course
 MATSCI20501  Waves and Diffraction in Solids
 Instructor(s)
 Dionne, Jennifer A
 Course
 PHOTON20501  Waves and Diffraction in Solids
 Instructor(s)
 Dionne, Jennifer A
2. Introduction to electrodynamics [1999]
 Griffiths, David J. (David Jeffery), 1942
 3rd ed.  Upper Saddle River, N.J. : Prentice Hall, c1999.
 Description
 Book — xv, 576 p.: ill. ; 25 cm.
 Summary

 1. Vector Analysis. Vector Algebra. Differential Calculus. Integral Calculus. Curvilinear Coordinates. The Dirac Delta Function. The Theory of Vector Fields.
 2. Electrostatics. The Electrostatic Field. Divergence and Curl of Electrostatic Fields. Electric Potential. Work and Energy in Electrostatics. Conductors.
 3. Special Techniques. Laplace's Equation and Uniqueness Theorems. The Method of Images. Separation of Variables. Multipole Expansion.
 4. Electrostatic Fields in Matter. Polarization. The Field of a Polarized Object. The Electric Displacement. Linear Dielectrics.
 5. Magnetostatics. The Lorentz Force Law. The BiotSavart Law. The Divergence and Curl of B. Magnetic Vector Potential.
 6. Magnetic Fields in Matter. Magnetization. The Field of a Magnetized Object. The Auxiliary Field H. Linear and Nonlinear Media.
 7. Electrodynamics. Electromotive Force. Electromagnetic Induction. Maxwell's Equations.
 8. Conservation Laws. Charge and Energy. Momentum.
 9. Electromagnetic Waves. Waves in One Dimension. Electromagnetic Waves in Vacuum. Electromagnetic Waves in Matter. Absorption and Dispersion. Guided Waves.
 10. Potentials and Fields. The Potential Formulation. Continuous Distributions. Point Charges.
 11. Radiation. Dipole Radiation. Point Charges.
 12. Electrodynamics and Relativity. The Special Theory of Relativity. Relativistic Mechanics. Relativistic Electrodynamics. Appendix A: Vector Calculus in Curvilinear Coordinates. Appendix B: The Helmholtz Theorem. Appendix C: Units. Index.
 (source: Nielsen Book Data)
(source: Nielsen Book Data) 9780138053260 20160528
 Online
Engineering Library (Terman)
Engineering Library (Terman)  Status 

On reserve: Ask at circulation desk  
QC680 .G74 1999  Unknown 2hour loan 
QC680 .G74 1999  Unknown 2hour loan 
QC680 .G74 1999  Unknown 2hour loan 
QC680 .G74 1999  Unknown 2hour loan 
MATSCI19501, MATSCI20501, PHOTON20501, PHYSICS12001
 Course
 MATSCI19501  Waves and Diffraction in Solids
 Instructor(s)
 Dionne, Jennifer A
 Course
 MATSCI20501  Waves and Diffraction in Solids
 Instructor(s)
 Dionne, Jennifer A
 Course
 PHOTON20501  Waves and Diffraction in Solids
 Instructor(s)
 Dionne, Jennifer A
 Course
 PHYSICS12001  Intermediate Electricity and Magnetism I
 Instructor(s)
 Hogan, Jason Michael