Extensive discussions cover the distribution, sampling, inference, analysis of variances; transformations of univariate statistical methods; analyses of geological trends and multivariate data; ratios and variables of constant sum; exploration for natural resources; and evaluation of computers and geology. No previous knowledge of statistics necessary. Unabridged, corrected republication in one volume of the original, two-volume (1970, 1971) edition.
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An Introduction to the Theory of Stationary Random Functions by A. M. Yaglom Of value both to students and to professionals engaged in solving stochastic problems, this two-part treatment covers the general theory of stationary random functions and the Wiener-Kolmogorov theory of extrapolation and interpolation of random sequences and processes. Prerequisites are a rudimentary knowledge of probability and complex variable theory. 1962 edition.
Treatise on Physiological Optics, Volume II by Hermann von Helmholtz Three-volume classic, first published in 1924, consists of Helmholtz's original data, plus supplementary matter. Volume II examines the sensations of vision.
Philosophy of Scientific Method by John Stuart Mill, Ernest Nagel Features extracts from Mills' A System of Logic and other major works to consider names and propositions; reasoning; induction; operations subsidiary to induction; the logic of the moral sciences; political economy.
A Treatise on Plane and Advanced Trigonometry by E. W. Hobson This excellent account of the theory of the circular functions and its applications is of particular value to students of mathematics who intended to proceed further in the study of analysis.
Hill's Equation by Wilhelm Magnus, Stanley Winkler This two-part treatment explains basic theory and details, including oscillatory solutions, intervals of stability and instability, discriminants, and coexistence. Particular attention to stability problems and coexistence of periodic solutions. 1966 edition.
