GOES-16 GLM Case Exercise: Buenos Aires Tornado and Hail Event

The University Corporation for Atmospheric Research, 2018

The Geostationary Lightning Mapper (GLM) flies aboard the GOES-R series satellites and provides lightning detection data at a quality and resolution not previously available from space. The GLM's continuous lightning monitoring capability is a valuable asset to detecting and monitoring developing thunderstorms 24 hours a day. This 30 minute lesson introduces learners to the benefits of using Geostationary Lightning Mapper (GLM) observations in assessing convection. Learners will explore a severe weather event near Buenos Aires, Argentina, and practice using GLM observations to determine initia ...

English

 GOES-16 GLM Case Exercise: Buenos Aires Tornado and Hail Event

 Available online: https://www.meted.ucar.edu/training_module.php?id=1427

Published by: The University Corporation for Atmospheric Research ; 2018

The Geostationary Lightning Mapper (GLM) flies aboard the GOES-R series satellites and provides lightning detection data at a quality and resolution not previously available from space. The GLM's continuous lightning monitoring capability is a valuable asset to detecting and monitoring developing thunderstorms 24 hours a day. This 30 minute lesson introduces learners to the benefits of using Geostationary Lightning Mapper (GLM) observations in assessing convection. Learners will explore a severe weather event near Buenos Aires, Argentina, and practice using GLM observations to determine initial convection, supplement other data tools in estimating tendencies in storm strength, and evaluate the potential for severe weather.

Disclaimer regarding 3rd party resources: WMO endeavours to ensure, but cannot and does not guarantee the accuracy, accessibility, integrity and timeliness of the information available on its website. WMO may make changes to the content of this website at any time without notice.

The responsibility for opinions expressed in articles, publications, studies and other contributions rests solely with their authors, and their posting on this website does not constitute an endorsement by WMO of the opinion expressed therein.

WMO shall not be liable for any damages incurred as a result of the use of its website. Please do not misuse our website.

Language(s): English

Format: Digital (Standard Copyright)

Tags: Weather forecasting ; Lesson/ Tutorial ; Tornado ; Hail ; Remote sensing ; Convection ; Satellite Skills and Knowledge for Operational Meteorologists Add tag

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GOES-16 Case Exercise: 8 May 2017 Colorado Hail Event

The University Corporation for Atmospheric Research, 2017

GOES-16, the first satellite in the GOES-R series, launched in November 2016 and now provides 16 multispectral bands of satellite data, including CONUS scans every five minutes, with 0.5 kilometer visible imagery resolution and 2.0 km longwave infrared resolution. This lesson harnesses GOES-16’s increased temporal and spatial resolutions to identify convective development and intensity signatures on traditional longwave IR and visible band imagery, and compares the experience to using legacy GOES products. The lesson is geared toward early-career forecasters, those forecasters wanting more exp ...

English

 GOES-16 Case Exercise: 8 May 2017 Colorado Hail Event

 Available online: https://www.meted.ucar.edu/training_module.php?id=1358

Published by: The University Corporation for Atmospheric Research ; 2017

GOES-16, the first satellite in the GOES-R series, launched in November 2016 and now provides 16 multispectral bands of satellite data, including CONUS scans every five minutes, with 0.5 kilometer visible imagery resolution and 2.0 km longwave infrared resolution. This lesson harnesses GOES-16’s increased temporal and spatial resolutions to identify convective development and intensity signatures on traditional longwave IR and visible band imagery, and compares the experience to using legacy GOES products. The lesson is geared toward early-career forecasters, those forecasters wanting more experience using high-resolution satellite data to forecast convection, and will be useful to aviation forecasters, meteorology major students and instructors, and weather enthusiasts.

Disclaimer regarding 3rd party resources: WMO endeavours to ensure, but cannot and does not guarantee the accuracy, accessibility, integrity and timeliness of the information available on its website. WMO may make changes to the content of this website at any time without notice.

The responsibility for opinions expressed in articles, publications, studies and other contributions rests solely with their authors, and their posting on this website does not constitute an endorsement by WMO of the opinion expressed therein.

WMO shall not be liable for any damages incurred as a result of the use of its website. Please do not misuse our website.

Language(s): English

Format: Digital (Standard Copyright)

Tags: Weather forecasting ; Hail ; Remote sensing ; Convection ; Lesson/ Tutorial ; Satellite Skills and Knowledge for Operational Meteorologists Add tag

No review, please log in to add yours !

NWS JetStream: Online School for Weather

The University Corporation for Atmospheric Research, 2016

JetStream - An Online School for Weather is a free teaching resource covering a wide variety of weather topics and weather safety. It provides educators, emergency managers, or anyone interested in learning about weather with comprehensive, well-organized, colorfully illustrated curricula. Each section or “module” includes “learning lessons", classroom experiments that use common household items demonstrating various aspects of weather. JetStream is developed and maintained by the National Oceanic and Atmospheric Administration’s (NOAA) National Weather Service and is not produced, owned or ho ...

English

 NWS JetStream: Online School for Weather

 Available online: https://www.meted.ucar.edu/training_module.php?id=1315

Published by: The University Corporation for Atmospheric Research ; 2016

JetStream - An Online School for Weather is a free teaching resource covering a wide variety of weather topics and weather safety. It provides educators, emergency managers, or anyone interested in learning about weather with comprehensive, well-organized, colorfully illustrated curricula. Each section or “module” includes “learning lessons", classroom experiments that use common household items demonstrating various aspects of weather. JetStream is developed and maintained by the National Oceanic and Atmospheric Administration’s (NOAA) National Weather Service and is not produced, owned or hosted by UCAR/COMET.

Disclaimer regarding 3rd party resources: WMO endeavours to ensure, but cannot and does not guarantee the accuracy, accessibility, integrity and timeliness of the information available on its website. WMO may make changes to the content of this website at any time without notice.

The responsibility for opinions expressed in articles, publications, studies and other contributions rests solely with their authors, and their posting on this website does not constitute an endorsement by WMO of the opinion expressed therein.

WMO shall not be liable for any damages incurred as a result of the use of its website. Please do not misuse our website.

Language(s): English

Format: Digital (Standard Copyright)

Tags: Hail ; Lesson/ Tutorial Add tag

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Nowcasting for Aviation in Africa

The University Corporation for Atmospheric Research, 2013

Nowcasting for Aviation in Africa summarizes techniques and best practices for developing area-specific forecasts at very short (0-6 hour) timescales. This 1-hour lesson presents a case study focused on interpreting threats and communicating correct warning information for a weather event affecting multiple airports in Gauteng Province, South Africa. In completing the lesson, the learner will assess the state of the atmosphere, develop a nowcast, monitor conditions, and update/create appropriate nowcast products for aviation stakeholders.

English

 Nowcasting for Aviation in Africa

 Available online: https://www.meted.ucar.edu/training_module.php?id=1020

Published by: The University Corporation for Atmospheric Research ; 2013

Nowcasting for Aviation in Africa summarizes techniques and best practices for developing area-specific forecasts at very short (0-6 hour) timescales. This 1-hour lesson presents a case study focused on interpreting threats and communicating correct warning information for a weather event affecting multiple airports in Gauteng Province, South Africa. In completing the lesson, the learner will assess the state of the atmosphere, develop a nowcast, monitor conditions, and update/create appropriate nowcast products for aviation stakeholders.

Disclaimer regarding 3rd party resources: WMO endeavours to ensure, but cannot and does not guarantee the accuracy, accessibility, integrity and timeliness of the information available on its website. WMO may make changes to the content of this website at any time without notice.

The responsibility for opinions expressed in articles, publications, studies and other contributions rests solely with their authors, and their posting on this website does not constitute an endorsement by WMO of the opinion expressed therein.

WMO shall not be liable for any damages incurred as a result of the use of its website. Please do not misuse our website.

Language(s): English

Format: Digital (Standard Copyright)

Tags: Weather ; Satellite ; Numerical weather prediction ; Thunderstorm ; Hail ; Wind shear ; Lesson/ Tutorial Add tag

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Skywarn Spotter Convective Basics

The University Corporation for Atmospheric Research, 2011

The "SKYWARN® Spotter Convective Basics" module will guide users to a basic understanding of convective storms. Through three different scenarios, you will cover reporting and proper communication of local storm reports to the National Weather Service (NWS), personal safety during these events, and field identification of convective storm hazards. After completing the scenarios, you will be given the opportunity to practice identifying storm features from a spectrum of photos.

English

 Skywarn Spotter Convective Basics

 Available online: https://www.meted.ucar.edu/training_module.php?id=816

Published by: The University Corporation for Atmospheric Research ; 2011

The "SKYWARN® Spotter Convective Basics" module will guide users to a basic understanding of convective storms. Through three different scenarios, you will cover reporting and proper communication of local storm reports to the National Weather Service (NWS), personal safety during these events, and field identification of convective storm hazards. After completing the scenarios, you will be given the opportunity to practice identifying storm features from a spectrum of photos.

Disclaimer regarding 3rd party resources: WMO endeavours to ensure, but cannot and does not guarantee the accuracy, accessibility, integrity and timeliness of the information available on its website. WMO may make changes to the content of this website at any time without notice.

The responsibility for opinions expressed in articles, publications, studies and other contributions rests solely with their authors, and their posting on this website does not constitute an endorsement by WMO of the opinion expressed therein.

WMO shall not be liable for any damages incurred as a result of the use of its website. Please do not misuse our website.

Language(s): English

Format: Digital (Standard Copyright)

Tags: Hail ; Convection ; Lesson/ Tutorial Add tag

No review, please log in to add yours !

Role of the Skywarn Spotter

The University Corporation for Atmospheric Research, 2011

The goal of the "Role of the SKYWARN® Spotter" module is to provide baseline training for all spotters through multiple scenarios covering the procedures for spotting (including communication and storm report criteria), safety considerations for all hazards, and an overview of the national program and its history.

English

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GOES-R: Benefits of Next-Generation Environmental Monitoring

The University Corporation for Atmospheric Research, 2008

This module is an introduction to NOAA's next generation Geostationary Operational Environmental Satellite-R (GOES-R) series, focusing on the value and anticipated benefits derived from an enhanced suite of instruments for improved monitoring of meteorological, environmental, climate, and space weather phenomena and related hazards. An extensive set of visualizations highlight GOES-R and its advanced observing capabilities for providing support in thirteen key environmental application areas including air quality and visibility, climate, cloud icing, fires, hurricanes, land cover, lightning, l ...

English

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WMP Report Series, 41. Meeting of Experts on Hail Suppression: Efficacy, Evaluation and New Developments in HS Methods

Bojkov Rumen D.; Brant Foote G.; World Meteorological Organization (WMO) - WMO, 2005 (WMO/TD-No. 1233)

English

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WMP Report Series, 26. Meeting of Experts to Review the Present Status of Hail Suppression

World Meteorological Organization (WMO) - WMO, 1996 (WMO/TD-No. 764)

English

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WMP Report Series, 05. Report of the Meeting of Experts on the Evaluation of Hail Suppression Experiments

World Meteorological Organization (WMO) - WMO, 1986 (WMO/TD-No. 97)

English

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Papers presented at the II International Conference on Hailstorms and Hail Prevention

Bulgarian Hydrometeorological Service - Bulgarian Hydrometeorological Service, 1984

English

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WMP Report Series. The Dynamic of hailstorms and related uncertainties of hail suppression

World Meteorological Organization (WMO) - WMO, 1981

English

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WMP Report Series. The Detection and measurement of hail

World Meteorological Organization (WMO) - WMO, 1980

English

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