![]() ![]() Yang - Atmospheric Radiation: A Primer with Illustrative Solutions Hobbs - Atmospheric Science: An Introductory Survey (2 nd Edition) Stamnes - Radiative Transfer in the Atmosphere and Ocean Stephens - Remote Sensing of the Lower Atmosphere ![]() Salby - Physics of the Atmosphere and Climate (2nd Edition) Petty - First Course in Atmospheric Radiation (2 nd Edition) Liou - An Introduction to Atmospheric Radiation (2 nd Edition) Yung - Atmospheric Radiation (2 nd Edition) Bohren - What Light Through Yonder Window Breaks? Reserve Materials (EMS Library in the Deike Building): For additional need related to socioeconomic status please visit. If you require assistance with the costs of textbooks for this course, contact the Office of Student Care and Advocacy (120 Boucke Building, 863-4926, ). Penn State honors and values the socioeconomic diversity of our students. The one closest in content to the course content is Fundamentals of Atmospheric Radiation by Craig Bohren and Eugene Clothiaux as it is hard to ignore the ideas that one has written about in a textbook. No book is absolutely required for this course. Required Textbooks and Recommended Textbooks: If you have not completed the listed prerequisites, promptly consult with the instructor about whether or not you should be I in this class. ![]() Students who do not meet these prerequisites may be dis-enrolled during the first 10-day free add-drop period. A basic understanding of atmospheric thermal physics and classical electromagnetic theory is helpful, though all ideas pertinent to this course will be introduced within it. Mathematics through differential equations is a necessity for this course. METEO 300 is a prerequisite for this course while METEO 431 must at least be concurrent with this course. Applications of radiative transfer to the understanding of seasons and of climate and climate change are presented as well.” Crucial to understanding these processes in the atmosphere are the interactions of radiation with water in the vapor, liquid, and solid states. The fundamentals of radiative transfer at the molecular level, including absorption, scattering, transmission, and emission of radiation by matter, are discussed and applied to help describe the earth's energy budget. “This course covers radiation and how it interacts with the atmosphere and earth's surface to drive motions in the atmosphere. M 04:00-05:00 PM (Room 601 Walker) Th 03:45-05:00 PM (Room 601 Walker) Fr 04:30-05:30 PM (Room 601 Walker)Ĭlass Meeting Times and Locations: Monday, Wednesday and Friday 12:20-1:10 PM Room 101 WalkerĬourse Designation in Curriculum: Choice of 1 of 3 Courses Required for the Majorīrief Course Description from University Bulletin: METEO 436: Radiation and Climate (Fall 2017) ![]()
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