Now in its Third Edition, this practical guide successfully meets the needs of pulmonary physicians, respiratory therapists, and nurses. Filled with tables, graphs, and illustrative cases, the book helps readers fully understand the clinical utility of pulmonary function tests. This edition includes new information on the forced oscillation technique for measuring respiratory system resistance. Also included is a discussion of measurement of exhaled nitric oxide, which is becoming useful in the study of asthma. Other highlights include nearly fifty new illustrative cases and current American Thoracic Society/European Respiratory Society Task Force guidelines on standardization of pulmonary function testing and interpretation.
Now in its Third Edition, this practical guide successfully meets the needs of pulmonary physicians, respiratory therapists, and nurses. Filled with tables, graphs, and illustrative cases, the book helps readers fully understand the clinical utility of pulmonary function tests. This edition includes new information on the forced oscillation technique for measuring respiratory system resistance. Also included is a discussion of measurement of exhaled nitric oxide, which is becoming useful in the study of asthma. Other highlights include nearly fifty new illustrative cases and current American Thoracic Society/European Respiratory Society Task Force guidelines on standardization of pulmonary function testing and interpretation.
Now in its Third Edition, this practical guide successfully meets the needs of pulmonary physicians, respiratory therapists, and nurses. Filled with tables, graphs, and illustrative cases, the book helps readers fully understand the clinical utility of pulmonary function tests. This edition includes new information on the forced oscillation technique for measuring respiratory system resistance. Also included is a discussion of measurement of exhaled nitric oxide, which is becoming useful in the study of asthma. Other highlights include nearly fifty new illustrative cases and current American Thoracic Society/European Respiratory Society Task Force guidelines on standardization of pulmonary function testing and interpretation.
The Second Paycheck: A Socioeconomic Analysis of Earnings is a comprehensive analysis of the socioeconomic aspects of earnings, with emphasis on the dynamic labor supply behavior of men and women. The importance of dynamic models in understanding labor supply is highlighted. The impact of children on the dynamic labor supply of men and women, and how changes in marital status affect female labor supply, are also discussed. Comprised of eight chapters, this book begins by considering several reasons why the labor force behavior of married women has become an important topic in the mainstream of the economics literature. The work behavior of married women is examined in the larger context of the work behavior of married and unmarried men and women. Furthermore, a microanalytic simulation approach to behavioral research and forecasting is presented. The behavioral model used in this study is then described. In addition to coefficient estimates, the probabilities of work, expected wage rates and expected hours of work are analyzed. A Heckman-type model of work behavior is also generalized to include unemployment. This monograph is intended for economists, sociologists, students of labor economics, researchers, forecasters, and those from all backgrounds who are interested in understanding or forecasting the employment and earnings behavior of women.
Physically correct boundary conditions on vapor-liquid interfaces are essential in order to make an analysis of flows of a liquid including bubbles or of a gas including droplets. Suitable boundary conditions do not exist at the present time. This book is concerned with the kinetic boundary condition for both the plane and curved vapor-liquid interfaces, and the fluid dynamics boundary condition for Navier-Stokes(fluid dynamics) equations. The kinetic boundary condition is formulated on the basis of molecular dynamics simulations and the fluid dynamics boundary condition is derived by a perturbation analysis of Gaussian-BGK Boltzmann equation applicable to polyatomic gases. The fluid dynamics boundary condition is applied to actual flow problems of bubbles in a liquid and droplets in a gas.
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