Greenbelt, Maryland : National Aeronautics and Space Administration, Goddard Space Flight Center, 
Book — 1 online resource (13 pages) : color illustrations Digital: text file.
"Biological diversity, or biodiversity, refers to the variety of all life on Earth—on all levels, from genes to species, ecosystems, and biomes. Over the last several decades, however, research has shown that global biodiversity has been on the decline. For decades, satellite and airborne remote sensing instruments have been observing environmental changes that impact biodiversity. This brochure describes how satellite observations—often combined with other measurements taken on the ground or from aircraft—provide information relevant to the distribution of ecosystems and their resident species and how scientists use this information to understand patterns of biodiversity, how biodiversity is changing, the drivers of the changes, and to predict the impacts of environmental changes on biodiversity in the future."
Cambridge ; New York : Cambridge University Press, 2008.
Book — xix, 551 p. : ill. ; 27 cm.
How to use this book--
2. Waves and quantum mechanics - Schrodinger's equation--
3. The time-dependent Schrodinger equation--
4. Functions and operators--
5. Operators and quantum mechanics--
6. Approximation methods in quantum mechanics--
7. Time-dependent perturbation theory--
8. Quantum mechanics in crystalline materials--
9. Angular momentum--
10. The hydrogen atom--
11. Methods for one-dimensional problems--
13. Identical particles--
14. The density matrix--
15. Harmonic oscillators and photons--
16. Fermion operators--
17. Interaction of different kinds of particles--
18. Quantum information--
19. Interpretation of quantum mechanics-- Appendices: A. Background mathematics-- B. Background physics-- C. Vector calculus-- D. Maxwell's equations and electromagnetism-- E. Perturbing Hamiltonian for optical absorption-- F. Early history of quantum mechanics-- G. Some useful mathematical formulae-- H. Greek alphabet-- I. Fundamental constants-- Bibliography-- Memorization list.
(source: Nielsen Book Data)
If you need a book that relates the core principles of quantum mechanics to modern applications in engineering, physics, and nanotechnology, this is it. Students will appreciate the book's applied emphasis, which illustrates theoretical concepts with examples of nanostructured materials, optics, and semiconductor devices. The many worked examples and more than 160 homework problems help students to problem solve and to practise applications of theory. Without assuming a prior knowledge of high-level physics or classical mechanics, the text introduces Schrodinger's equation, operators, and approximation methods. Systems, including the hydrogen atom and crystalline materials, are analyzed in detail. More advanced subjects, such as density matrices, quantum optics, and quantum information, are also covered. Practical applications and algorithms for the computational analysis of simple structures make this an ideal introduction to quantum mechanics for students of engineering, physics, nanotechnology, and other disciplines. Additional resources available from www.cambridge.org/9780521897839. (source: Nielsen Book Data)