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Unit 8 | Introduction to Atmospheric Science
https://intro-atmos-sci.community.uaf.edu/schedule-2/unit-8
Introduction to Atmospheric Science. Application of material learned in previous units to a new problem. Classification of air masses. Interpretation of air mass modification, and their meteorological consequences for weather, climate and air quality. Watch this video on the material that will be discussed in class. Http:/ intro-atmos-sci.community.uaf.edu/files/2014/06/unit8.mp4. Read chapters 2.11 to 2.11.5 (included) of. Be able to present the material learned. Fill out the questionnaire.
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Schedule | Introduction to Atmospheric Science
https://intro-atmos-sci.community.uaf.edu/schedule-2
Introduction to Atmospheric Science. This updated schedule lists what will be covered by the in-class exercises and applications, and which units you have to have done prior. To the day of class to prepare yourself for the in-class review by students, discussion of the material, and application exercises that will be done during class time. This means that prior to the day of class you will have to prepare the assigned unit. Note that it is your responsibility to keep up with the schedule! Zeroth and fir...
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Units | Introduction to Atmospheric Science
https://intro-atmos-sci.community.uaf.edu/units
Introduction to Atmospheric Science. Check in the schedule. Which unit you have to have prepared prior to class time. Tip for slow band width. How to download the videos. Click for periodic table of elements. Click for Sky Watcher Chart. Submit a question on a topic you did not understand or want clarification on. Welcome to Introduction to Atmospheric Sciences. Updated schedule is now available. Class starts September 13. Welcome to Introduction to Atmospheric Sciences. US Standard Atmosphere Calculator.
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Get started | Introduction to Atmospheric Science
https://intro-atmos-sci.community.uaf.edu/get-started
Introduction to Atmospheric Science. Welcome to the student orientation of Introduction to Atmospheric Sciences. Let’s get to know the classmates and professor. I am Nicole Mölders aka Carmen N. Moelders, your professor of Introduction to atmospheric science. You can learn more about me. At this link. Please introduce yourself to the other classmates. By filling out the form at the link. The syllabus also provides information on how to contact me. If you don’t meet them, but want to take this class...
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Unit 12 | Introduction to Atmospheric Science
https://intro-atmos-sci.community.uaf.edu/schedule-2/unit-12
Introduction to Atmospheric Science. After this unit you will be able to. Describe the different behavior of shortwave and long-wave radiation, and their interaction with the atmosphere’s components. Solve problems related to shortwave and long-wave radiation processes. Interpret optical phenomena like halo, double rainbows, etc. Name in which spectral ranges any given target has which characteristic interaction with radiation. Sketch the solar and terrestrial radiation. Fill out the form. Proudly powere...
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Unit 11 | Introduction to Atmospheric Science
https://intro-atmos-sci.community.uaf.edu/schedule-2/unit-11
Introduction to Atmospheric Science. Solid angle. From Mölders and Kramm (2014). After this unit, you will be able to. Apply basic laws of radiation. Use orbital concepts to solve radiation relevant questions and explain the seasons. Define terms of radiation theory (e.g. solid angle, solar constant, insolation, wavelength, frequency domain, etc.). Define the nomenclature and basic concepts of atmospheric radiation. Watch this video on the material relevant for this unit. At the link if deems helpful.
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Unit 1 | Introduction to Atmospheric Science
https://intro-atmos-sci.community.uaf.edu/schedule-2/unit-1
Introduction to Atmospheric Science. Temporal evolution of the CO. Concentration as measured at Mauna Loa, HI. After this unit students will be able to explain the vertical structure of the atmosphere under different aspects relevant in atmospheric sciences, research and societal applications. Students will be able to identify which processes lead the vertical structure of Earth’s atmosphere. They will be able to interpret distributions of atmospheric constituents. Watch this video on the material. Click...
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Unit 13 | Introduction to Atmospheric Science
https://intro-atmos-sci.community.uaf.edu/schedule-2/unit-13
Introduction to Atmospheric Science. False color image of a cyclone over Europe. Data processing by Nicole Mölders. This unit bases on the concepts of atmospheric radiation which build the foundation for Remote Sensing. The goal of this unit is the application of atmospheric radiation theory for observing the atmosphere in active and passive remote sensing. After this unit, you will be able to. Name in which spectral ranges any given target has which characteristic interaction with radiation. Click for p...
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Welcome to Introduction to Atmospheric Sciences | Introduction to Atmospheric Science
https://intro-atmos-sci.community.uaf.edu/home
Introduction to Atmospheric Science. Welcome to Introduction to Atmospheric Sciences. Introduction to Atmospheric Sciences. O, nitrogen, etc.) and the origin of the ozone layer are covered as well. The chapter on radiation includes solar and terrestrial radiation, major absorbers, radiation balance,radiative equilibrium,radiative-convective equilibrium, basics of molecular, aerosol, and cloud adsorption and scattering. Satellite imaginary, greenhouse gases (e.g., CO. Tip for slow band width. Proudly powe...
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Unit 10 | Introduction to Atmospheric Science
https://intro-atmos-sci.community.uaf.edu/schedule-2/unit-10
Introduction to Atmospheric Science. Precipitation gauge. Photo by Nicole Mölders. Understanding the morphology of clouds and the precipitation characteristics from a cloud microphysical and thermodynamical point of view. Sketching where the cloud microphysical processes may occur. Identification of clouds and precipitation types. Cirrus clouds. Photo by Nicole Mölders. Watch this video on the material that will be discussed in class and take notes. Be able to present the material learned.