**Author**: R. M. Goody

**Publisher:** Oxford University Press on Demand

**ISBN:** 0195102916

**Category : **Law

**Languages : **en

**Pages : **519

Get Book→

**Book Description**
A complete revision of Goody's classic 1964 work, this volume offers a systematic discussion of atmospheric radiation processes that today are at the center of worldwide study and concern. It deals with the ways in which incident solar radiation is transformed into scattered and thermal radiation, and the thermodynamic consequences for the Earth's gaseous envelope, identifying aspects of the interaction between radiation and atmospheric motions as the central theme for atmospheric radiation studies. As a complete treatment of physical and mathematical foundations, the text assumes no prior knowledge of atmospheric physics. The theoretical discussion is systematic, and can therefore be applied with minor extension to any planetary atmosphere.

**Author**: R. M. Goody

**Publisher:** Oxford University Press on Demand

**ISBN:** 0195102916

**Category : **Law

**Languages : **en

**Pages : **519

View→

**Book Description**
A complete revision of Goody's classic 1964 work, this volume offers a systematic discussion of atmospheric radiation processes that today are at the center of worldwide study and concern. It deals with the ways in which incident solar radiation is transformed into scattered and thermal radiation, and the thermodynamic consequences for the Earth's gaseous envelope, identifying aspects of the interaction between radiation and atmospheric motions as the central theme for atmospheric radiation studies. As a complete treatment of physical and mathematical foundations, the text assumes no prior knowledge of atmospheric physics. The theoretical discussion is systematic, and can therefore be applied with minor extension to any planetary atmosphere.

**Author**: Richard M. Goody

**Publisher:** Oxford University Press, USA

**ISBN:** 9780195051346

**Category : **Atmospheric radiation.

**Languages : **en

**Pages : **519

View→

**Book Description**
A complete revision of Goody's classic 1964 work, this volume offers a systematic discussion of atmospheric radiation processes that today are at the center of worldwide study and concern. It deals with the ways in which incident solar radiation is transformed into scattered and thermal radiation, and the thermodynamic consequences for the Earth's gaseous envelope, identifying aspects of the interaction between radiation and atmospheric motions as the central theme for atmospheric radiation studies. As a complete treatment of physical and mathematical foundations, the text assumes no prior knowledge of atmospheric physics. The theoretical discussion is systematic, and can therefore be applied with minor extension to any planetary atmosphere.

**Author**: R.M. Goody

**Publisher:**
**ISBN:**
**Category : **
**Languages : **en

**Pages : **
View→

**Book Description**

**Author**: Manfred Wendisch

**Publisher:** John Wiley & Sons

**ISBN:** 3527408363

**Category : **Science

**Languages : **en

**Pages : **321

View→

**Book Description**
Aimed at the senior undergraduate and graduate level, this textbook fills the gap between general introductory texts offering little detail and very technical, advanced books written for mathematicians and theorists rather than experimentalists in the field. The result is a concise course in atmospheric radiative processes, tailored for one semester. The authors are accomplished researchers who know how to reach their intended audience and provide here the content needed to understand climate warming and remote sensing for pollution measurement. They also include supplementary reading for planet scientists and problems. A solutions manual for lecturers will be provided on www.wiley-vch.de. Equally suitable reading for geophysicists, physical chemists, astronomers, environmental chemists and spectroscopists. From the contents: Introduction Notation and Math Refresher Fundamentals Interactions of EM Radiation and Individual Particles Volumetric (Bulk) Optical Properties Radiative Transfer Equation Numerical and Approximate Solution Techniques for the RTE Absorption and Emission by Atmospheric Gases Terrestrial Radiative Transfer

**Author**: Boris M. Smirnov

**Publisher:** Walter de Gruyter GmbH & Co KG

**ISBN:** 3110629038

**Category : **Science

**Languages : **en

**Pages : **262

View→

**Book Description**
This book sets out to give a rigorous mathematical description of the greenhouse effect through the theory of infrared atmospheric emission. In contrast to traditional climatological analysis, this approach eschews empirical relations in favour of a strict thermodynamical derivation, based on data from NASA and from the HITRAN spectroscopy database. The results highlight new aspects of the role of clouds in the greenhouse effect.

**Author**: K. N. Liou

**Publisher:** Elsevier

**ISBN:** 0080491677

**Category : **Science

**Languages : **en

**Pages : **583

View→

**Book Description**
This Second Edition of An Introduction to Atmospheric Radiation has been extensively revised to address the fundamental study and quantitative measurement of the interactions of solar and terrestrial radiation with molecules, aerosols, and cloud particles in planetary atmospheres. It contains 70% new material, much of it stemming from the investigation of the atmospheric greenhouse effects of external radiative perturbations in climate systems, and the development of methodologies for inferring atmospheric and surface parameters by means of remote sensing. Liou's comprehensive treatment of the fundamentals of atmospheric radiation was developed for students, academics, and researchers in atmospheric sciences, remote sensing, and climate modeling. Balanced treatment of fundamentals and applications Includes over 170 illustrations to complement the concise description of each subject Numerous examples and hands-on exercises at the end of each chapter

**Author**: Craig F. Bohren

**Publisher:** John Wiley & Sons

**ISBN:** 3527608370

**Category : **Science

**Languages : **en

**Pages : **490

View→

**Book Description**
Meeting the need for teaching material suitable for students of atmospheric science and courses on atmospheric radiation, this textbook covers the fundamentals of emission, absorption, and scattering of electromagnetic radiation from ultraviolet to infrared and beyond. Much of the contents applies to planetary atmosphere, with graded discussions providing a thorough treatment of subjects, including single scattering by particles at different levels of complexity. The discussion of the simple multiple scattering theory introduces concepts in more advanced theories, such that the more complicated two-stream theory allows readers to progress beyond the pile-of-plates theory. The authors are physicists teaching at the largest meteorology department in the US at Penn State. The problems given in the text come from students, colleagues, and correspondents, and the figures designed especially for this book facilitate comprehension. Ideal for advanced undergraduate and graduate students of atmospheric science. * Free solutions manual available for lecturers at www.wiley-vch.de/supplements/

**Author**: Yu. M. Timofeyev

**Publisher:** Cambridge Int Science Publishing

**ISBN:** 1904602258

**Category : **Science

**Languages : **en

**Pages : **480

View→

**Book Description**
The authors of this book present the theoretical fundamentals of atmospheric optics as a science of the propagation, transformation and generation in the atmosphere of electromagnetic radiation from the ultraviolet to microwave range of the spectrum. The main characteristics of the planets of the solar system and atmospheres are described. Special attention is given to the equation of transfer of radiation in different spectrum ranges; the absorption of radiation by atmospheric gases and aerosol, molecular, aerosol and different types of non-resonant scattering; atmospheric diffraction; reflection of radiation from the surface; and glow of the atmosphere. They present the method of calculating radiation for the solar and thermal ranges of the spectrum. The monograph will be of interest to experts working in the areas of the physics and optics of the atmosphere and also suitable for students and postgraduates studying the physics of atmosphere, meteorology, physical ecology and monitoring of the environment.

**Author**: Wilford Zdunkowski

**Publisher:** Cambridge University Press

**ISBN:** 1139464604

**Category : **Science

**Languages : **en

**Pages : **
View→

**Book Description**
This book presents the theory and applications of radiative transfer in the atmosphere. It is written for graduate students and researchers in the fields of meteorology and related sciences. The book begins with important basic definitions of the radiative transfer theory. It presents the hydrodynamic derivation of the radiative transfer equation and the principles of variance. The authors examine in detail various quasi-exact solutions of the radiative transfer equation and give a thorough treatment of the radiative perturbation theory. A rigorous treatment of Mie scattering is given, including Rayleigh scattering as a special case, and the important efficiency factors for extinction, scattering and absorption are derived. The fundamentals of remote sensing applications of radiative transfer are presented. Problems of varying degrees of difficulty are included at the end of each chapter, so readers can further their understanding of the materials covered in the book.

**Author**: James A. Coakley Jr.

**Publisher:** John Wiley & Sons

**ISBN:** 3527681469

**Category : **Science

**Languages : **en

**Pages : **256

View→

**Book Description**
This textbook is a first-look at radiative transfer in planetary atmospheres with a particular focus on the Earth's atmosphere and climate. It covers the basics of the radiative transfer of sunlight, treating absorption and scattering, and the transfer of the thermal infrared. The examples included show how the solutions of the radiative transfer equation are used to evaluate changes in the Earth?s energy budget due to changes in atmospheric composition, how these changes lead to climate change, and also how remote sensing can be used to probe the thermal structure and composition of planetary atmospheres. The examples motivate students by leading them to a better understanding of and appreciation for the computer-generated numerical results. Aimed at upper-division undergraduates and beginning graduate students in physics and atmospheric sciences, the book is designed to cover the essence of the material in a 10-week course, while the material in the optional sections will facilitate its use at the more leisurely pace and in-depth focus of a semester course.