Sooner or later, people develop a fairly stable set of ways for thinking, judging and responding; this is called one's habitual domain. Our habitual domains (HDs) grow and go wherever we go and have great impact on our behavior and decision making. When we are vital and growing our HDs are expanding and flexible; and when we find ourselves in ruts, not growing, it is because our HDs have become rigid and inflexible, as in death. This book discusses all aspects of habitual domains: their foundations, expansion, dynamics and applications to various nontrivial decision problems in our lives, including effective decision making, effective goal setting, cooperation, conflict resolution, negotiation and career management. Based on an integration of psychology, system science, management and common sense and wisdom, the book provides a simple but unified set of tools in terms of habitual domains and the behavior mechanism. The tools can be applied to expand and sharpen our capacity for knowing ourselves, our coworkers, our rivals, and our environments, and to form winning strategies for solving our problems. To make the book fun to read and the concepts introduced easy to understand and apply, the book is written in plain language with many lively and interesting examples as illustrations. The first half of the book focuses on general descriptions of the behavior mechanism and habitual domains, the second half on applications.
This synthesis will be of interest to highway design engineers, maintenance engineers, environmental personnel, administrators, and others responsible for the design, operation, and maintenance of stormwater management for highways and ancillary facilities. Information is presented on the basic hydrology needed to assess stormwater impacts and on the effectiveness of stormwater management techniques. Designers of highway facilities must consider stormwater management requirements within the context of both localized runoff impacts, as well as downstream effects of runoff. This report of the Transportation Research Board describes the management of both stormwater quantity and stormwater quality. Stormwater quantity includes an overview of methods of estimating runoff and management control practices. Stormwater quality management includes discussions of the most prevalent pollutants and best management practices (BMP) to minimize pollutants from transportation facilities. Various types of structural and non-structural methods are described, including their design considerations and efficiencies. Several stormwater management models are described, with special concern for highway applications. Highlights from the 1990 National Pollutant Discharge Elimination System (NPDES) permits are presented.
This chapter briefly reviews current electroless plating techniques for Mg alloys. Among them, a recently developed Ni-B plating is particularly selected for further discussion. Following that, the Ni-B plating methodology is presented and its electroless plating mechanism is proposed. The deposited Ni-B layer on AZ91D is then systematically characterized for its microstructure, porosity, thickness, adhesion and corrosion resistance. Based on the plating performance and characteristics, some possible applications and future developments of this new plating are predicted.
Written by a well-known group of researchers from Moscow, this book is a study of the asymptotic approximations of the 3-D dynamical equations of elasticity in the case of thin elastic shells of an arbitrary shape. Vibration of shells is a very useful theory in space techniques, submarine detection, and other high-tech domains. Dynamics of Thin Walled Elastic Bodies shows that refined shell theories used in engineering practice give a distorted picture of the high-frequency or non-stationary dynamics of shells, and offers new, mathematically more consistent ways of describing the dynamics of shells. Studies the asymptotic approximations of the 3-D dynamical equations of elasticity Vibration of shells is a very useful theory in space techniques, submarine detection, and other high-tech domains Shows that refined shell theories used in engineering practice give a distorted picture of the high-frequency or non-stationary dynamics of shells Offers new, mathematically more consistent ways of describing the dynamics of shells
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