Originally published in 1986, this was a study of the British ethical societies in the nineteenth and early twentieth centuries. These societies emerged out of the vortex of distinctive social, philosophical, and religious ideas in the middle of the nineteenth century with the specific educative aim of providing society with non-religious moral instruction. They became havens of discussion, rallying-points for progressive campaigns (notably involving education and the Boer War), and places of secular worship for those estranged by Church and dissent. This network of humanistic clubs was established by an American, Stanton Coit, who had already set up a Society for Ethical Culture in New York. By 1906, the ethical movement in Britain comprised forty-six societies, though its influence began to wane after World War I. Dr Mackillop's comprehensive account considers the significant events and personalities in the history of the ethical movement.
Data assimilation is a hugely important mathematical technique, relevant in fields as diverse as geophysics, data science, and neuroscience. This modern book provides an authoritative treatment of the field as it relates to several scientific disciplines, with a particular emphasis on recent developments from machine learning and its role in the optimisation of data assimilation. Underlying theory from statistical physics, such as path integrals and Monte Carlo methods, are developed in the text as a basis for data assimilation, and the author then explores examples from current multidisciplinary research such as the modelling of shallow water systems, ocean dynamics, and neuronal dynamics in the avian brain. The theory of data assimilation and machine learning is introduced in an accessible and unified manner, and the book is suitable for undergraduate and graduate students from science and engineering without specialized experience of statistical physics.
This book describes the theory and practice of infrared and Raman spectroscopy as applied to the study of the physical and chemical characteristics of polymers. Its purpose is to give the beginning researcher in the field a firm foundation and a starting point for the study of more-advanced literature. To this end the book concentrates on the fundamentals of the theory and nomenclature, and on the discussion of well-documented illustrations of these fundamental principles, including many now-classic studies in the subject. No previous knowledge of either polymers or vibrational spectroscopy is assumed. The book will be of value to anyone beginning research on the vibrational spectroscopy of polymers, either from a physics or a chemistry background. It is intended to be especially suitable for use in undergraduate courses in physics, chemistry or materials science at both universities and polytechnics.
