This work on Hiratsuka Raichō at last fully assesses her key role in the history of the Japanese women's movement. It provides a full and contextual analysis of the life (1886-1971) and work of this leading Japanese feminist, all in the light of the changes affecting women in Japan. At the same time the author compares her working with similar historical shifts and movements in western countries, notably Great Britain and the United States. International comparisons at the level of personal biography and associated ideas are made, to see the influence of Western feminists on Hiratsuka's feminism. Hiratsuka is compared with other Japanese feminists, whereby her pivotal role in the history of the Japanese women's movement becomes clear. With extensive footnotes for further reference - and research -, a number of appendices, a detailed bilingual glossary and bibliography; a true reference on an important subject.
This book analyzes the political economy of reproduction and its role in the process of Japanese modernization. Hiroko analyzes state attempts and policies to intervene into women's bodies and everyday lives to integrate them into the Japanese political economy. Based on Foucault's concept of governmentality the author develops a model to assess reproduction in three forms - economic, biological and socio-political - from 1868 until the present day.
Written chemical formulas, such as C2H6O, can tell us the constituent atoms a molecule contains but they cannot differentiate between the possible geometrical arrangements (isomers) of these models. Yet the chemical properties of different isomers can vary hugely. Therefore, to understand the world of chemistry we need to ask what kind of isomers can be produced from a given atomic composition, how are isomers converted into each other, how do they decompose into smaller pieces, and how can they be made from smaller pieces? The answers to these questions will help us to discover new chemistry and new molecules. A potential energy surface (PES) describes a system, such as a molecule, based on geometrical parameters. The mathematical properties of the PES can be used to calculate probable isomer structures as well as how they are formed and how they might behave. Exploration on Quantum Chemical Potential Energy Surfaces focuses on the PES search based on quantum chemical calculations. It describes how to explore the chemical world on PES, discusses fundamental methods and specific techniques developed for efficient exploration on PES, and demonstrates several examples of the PES search for chemical structures and reaction routes.
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