This is a textbook intended for graduate students who plan to work in nuclear magnetic resonance or electron spin resonance. The text describes the basic principles of magnetic resonance, steady-state and pulse methods, the theory of the width, shape and position of spectral absorption lines as well as the theory of relaxation times. It also introduces the density matrix. This third edition adds new material to many parts, plus new sections on one- and two-dimensional Fourier transform methods, multiple quantum coherence and magnetic resonance imaging.
Offering a re-evaluation of the power industry, this book discusses decision-making for problems where a particular decision affects the options available at the next decision time. It covers a wide range of topics, from dynamic programming to future market decisions.
Offering a re-evaluation of the power industry, this book discusses decision-making for problems where a particular decision affects the options available at the next decision time. It covers a wide range of topics, from dynamic programming to future market decisions.