To find previous module announcements, visit the What's New Archive.
23 September 2008
Environmental Satellite Resource Center (ESRC)The COMET Program in association with NPOESS/IPO and NOAA/NESDIS has created a new web-based search tool for finding useful satellite resources. This community-driven Website provides access to information on satellite systems and applications, data products, cases and examples, and education and training materials about low-earth orbiting and geostationary environmental satellites. It offers multiple search options for accessing materials for all knowledge levels. We invite you to use the ESRC now.
22 September 2008
This module provides an overview of climatology, the study of climate. The module begins by examining the drivers that combine to create the climate regions of the world—from those at the mesoscale (local) level to those at the synoptic-scale (continental) and global-scale levels. Examples include locally dominant winds, air masses, fronts, ocean currents, Earth's rotation around the sun, and latitude. Each discussion of a climate driver has an 'example/exploration' segment, where the information is applied to several cities. The module also examines a scheme for classifying the world's climate zones, the sources and uses of climate information, and some of its limitations. The module is intended for a wide range of users, from forecasters and scientists to those in business and government as well as the general public—in short, anyone interested in learning about climatology. Some familiarity with basic meteorology is useful although not required.
18 September 2008
Writing TAFs for Winds and LLWS
"Writing TAFs for Winds and LLWS" is the third unit in the Distance Learning Aviation Course 2 (DLAC2) series on producing TAFs that meet the needs of the aviation community. In addition to providing information about tools for diagnosing wind and wind impacts, the module extends the Practically Perfect TAF (PPTAF) process to address airport-specific criteria. By understanding the criteria at airports for which they produce TAFs, forecasters will be better able to produce a Practically Perfect Site-Specific TAF (PPSST). The unit also examines how to effectively communicate logic and uncertainty in an aviation forecast discussion (AvnFD) and addresses maintaining an effective TAF weather watch and updating the TAF proactively.
9 September 2008
North Wall Effects on Winds and Waves
North Wall events refer to high wind and wave events that occur along the north edge of warm, fast, western boundary currents. These events occur along the Gulf Stream off the mid-Atlantic states of the U.S. and along the Kuroshio Current near Japan and Taiwan. This module explores the relationships between atmospheric stability, winds, waves, and ocean currents during North Wall events. Using three different case studies, we examine the relevant aspects of several topics, including the synoptic setting, ocean currents, evolution of the marine boundary layer, growth of ocean waves, and potential wave-current interactions.
29 August 2008
Creación de productos meteorológicos a partir de observaciones satelitales
This module, now translated into Spanish, presents an overview of how satellite data are turned into the satellite products used by operational forecasters and the research and educational communities, etc. The module begins by describing the process of creating simple image products that use relatively simple image manipulation techniques to highlight properties such as wind-blown dust, vegetation, and cloud phase. The module then describes some of the more complex processes involved in generating quantitative products, such as cloud identification, atmospheric instability, wildfire characterization, and sea surface temperature. Finally, the module introduces advanced products that use the thousands of channels on hyperspectral instruments to derive a variety of geophysical parameters related to the characterization of aerosols, trace gases, cloud microphysics, and atmospheric profiling, etc. The discussion of quantitative products uses the example of the Meteosat cloud mask, which indicates whether a pixel in a satellite image is clear or cloudy. Cloud mask products are important to all environmental satellites in that they form the basis for many other derived products.
25 August 2008
Dams and Dam Failure - Module 2: St. Venant Equations, Modeling, and Case Study
This second module in the two-part series expands on the science explaining catastrophic dam failure and flood-wave prediction methods associated with these events. Through the use of rich illustrations and interactions, this module introduces the St. Venant equations for dynamic wave flow, and flood wave characteristics. It also explains the general dam failure modeling process along with advantages and limitations of dam failure models including model stability, accuracy, and sensitivity issues. Finally, it also provides an overview of the Teton River dam failure, one of the most famous hydrologic events in U.S. history. The two modules that comprise this series are designed to be taken consecutively and together provide a fundamental understanding of this complex hydrologic topic.
22 August 2008
Dominio del diagrama oblicuo T-log p
This is the Spanish translation of the original Skew-T Mastery module. Meteorologists typically examine atmospheric soundings in the course of preparing a weather forecast. The skew-T / log-P diagram provides the preferred method for analyzing these soundings. This module comprehensively examines the use of the skew-T diagram. It explores thermodynamic properties, convective parameters, stability assessment, and several forecast applications. The module is designed for both instruction and reference. It also comes with an interactive Web-based skew-T diagram that calculates several common forecast parameters.
21 August 2008
Introduction to Tropical Meteorology, Chapter 10: Tropical Cyclones
Chapter 10, Tropical Cyclones, is the third published chapter of the online textbook, Introduction to Tropical Meteorology. Tropical cyclones are the deadliest tropical weather systems. This chapter describes their seasonal and geographic variability and controls, decadal cycles, and history of naming conventions. Tropical cyclogenesis is explored in depth and the core and balance solutions for regions of the cyclone are examined. Intensity is considered in terms of inner-core dynamics, large-scale environmental controls, limits on potential intensity, satellite interpretation techniques, and classification by wind speed. Factors that influence motion are investigated. Extratropical transition is described in terms of structural changes, preceding mechanisms, and impact on high latitudes. Societal impacts and mitigation are also covered.
13 August 2008
This module describes the main elements to consider when analyzing wave model and buoy data. The module focuses on data products available from NOAA including spectral plots, maps, and text bulletins. East and West Coast wave-masking exercises conclude the module. The content in this module is an excerpt from the previously published COMET module Rip Currents: Forecasting.
04 August 2008
Introduction to Distributed Hydrologic Modeling
In this webcast, Diane Cooper, with the Southern Region Headquarters of NOAA's National Weather Service, provides a basic scientific description of the physical processes, mathematical equations, and data issues with respect to distributed hydrologic models. Ms. Cooper first explains the background of hydrologic modeling and how that influences the current state-of-the-art for distributed hydrologic modeling. She then describes the physical process that distributed hydrologic models are attempting to capture and covers a few basic mathematical equations related to these models. She also identifies modeling challenges related to the complexity, calibration, and large data requirements, and gives an overview of the results to date of distributed hydrologic models used at the NWS. The target audience for this module is NWS forecasters who have little or no training in hydrology but can benefit from knowing how distributed hydrologic models work.
24 July 2008
Ondas de montaña y vientos de ladera descendentes
Mountain waves form above and downwind of topographic barriers and frequently pose a serious hazard to mountain aviation because of strong-to-extreme turbulence. This foundation module, now available in Spanish, describes the features of mountain waves and explores the conditions under which they form. Like other foundation modules in the Mesoscale Primer, this module starts with a forecast scenario and concludes with a final exam. Rich graphics, audio narration, and frequent interactions enhance the presentation.
21 July 2008
Anticipating and dealing with weather and the hazards it creates is a real challenge for those in departments of transportation. This module gives road and highway managers a basic understanding of meteorology and weather hazards so that they can better interpret weather forecast information used to make road management decisions. The module also highlights web-based forecast products available from the National Weather Service that can help in the decision-making process.
08 July 2008
This is the Spanish translation of the Gap Winds module. This module provides a basic understanding of why gap winds occur, their typical structures, and how gap wind strength and extent are controlled by larger-scale, or synoptic, conditions. You will learn about a number of important gap flows in coastal regions around the world, with special attention given to comprehensively documented gap wind cases in the Strait of Juan de Fuca and the Columbia River Gorge. Basic techniques for evaluating and predicting gap flows are presented. The module reviews the capabilities and limitations of the current generation of mesoscale models in producing realistic gap winds. By the end of this module, you should have sufficient background to diagnose and forecast gap flows around the world, and to use this knowledge to understand their implications for operational decisions. Other features in this module include a concise summary for quick reference and a final exam to test your knowledge. Like other modules in the Mesoscale Meteorology Primer, this module comes with audio narration, rich graphics, and a companion print version.
03 July 2008
Principios de convección I: empuje hidrostático y CAPE
This is the Spanish translation of the Principles of Convection I: Buoyancy and CAPE module providing a brief overview of Buoyancy and CAPE. Topics covered include the origin of atmospheric buoyancy, estimating buoyancy using the CAPE and Lifted Index, factors that affect buoyancy including entrainment of mid-level air, water loading, convective inhibition, and the origin of convective downdrafts. This module delivers instruction with audio narration, rich graphics, and a companion print version.
30 June 2008
Introduction to Verification of Hydrologic Forecasts
This module offers a comprehensive description of a set of common verification measures for hydrologic forecasts, both deterministic and probabilistic. Through use of rich illustrations, animations, and interactions, this module explains how these verification measures can provide valuable information to users with varying needs. In addition to providing a measure of how well a forecast matches observations, verification measures can be used to help forecasters and users learn about the strengths and weaknesses of a forecast.
23 June 2008
Creating Meteorological Products from Satellite Data
This module presents an overview of how satellite data are turned into the satellite products used by operational forecasters and the research and educational communities, etc. The module begins by describing the process of creating simple image products that use relatively simple image manipulation techniques to highlight properties such as wind-blown dust, vegetation, and cloud phase. The module then describes some of the more complex processes involved in generating quantitative products, such as cloud identification, atmospheric instability, wildfire characterization, and sea surface temperature. Finally, the module introduces advanced products that use the thousands of channels on hyperspectral instruments to derive a variety of geophysical parameters related to the characterization of aerosols, trace gases, cloud microphysics, and atmospheric profiling, etc. The discussion of quantitative products uses the example of the Meteosat cloud mask, which indicates whether a pixel in a satellite image is clear or cloudy. Cloud mask products are important to all environmental satellites in that they form the basis for many other derived products.
Archive
To find previous module announcements, check out the What's New Archive.
.gif "ucar home")
