![]() Links to detailed dataset information, descriptions of field campaigns and satellite measurements, and access to the Lightning Primer, a beginner's guide to lightning are provided above. The data collected are routinely shared with scientists around the globe, resulting in numerous advancements in the field of Atmospheric Science. Instruments of various types have been designed, constructed, and deployed as ground-based, airborne, and space-based sensors capable of lightning detection and characterization, to study the electrical behavior of thunderstorms. The primary objectives of lightning study include determining the relationship between the electrical characteristics of storms and precipitation, convection, and severe weather. Multiple ground and airborne instruments viewed severe weather at the same time as GLM. For example, the newGeostationary Lightning Mapper ( GLM) instrument on the Geostationary Operational Environmental Satellite ( GOES)-16 is being validated using data from a GOES-R field campaign that took place in 2017. There are new instruments and different instruments viewing the same events allowing for assessment of instrument measurement characteristics and capabilities. Thunderstorm tracking can be set to Closest, Newest, Most. Audible and/or visual alerts can be set for Local and/or Severe storm targets. manually so that data is customised to your location. Uses your post code to set your latitude / longitude or can be set. Lightning continues to be studied by scientists and engineers who use a variety of instruments. Displays lightning strikes, thundery areas and thunderstorms updating every minute. We now have a better understanding of why lightning occurs and where, what lightning patterns exist over the globe, and what lightning tells us about atmospheric convection. Lightning research has come a long way in the past few decades.
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