Daytime temperatures are in the 70s F (mid 20s C). Traveling to Topeka in May, you will notice that it is warm and somewhat rainy. This is worth investing in for this weather. For visiting Topeka, we suggest these boots: In addition to regular shoes, you should bring snow boots. In our opinion, the best option: this one In terms of precipitation, you can expect it to rain a bit less than half of the time. Humidity is generally between 50 and 60% during the day. Temperatures tend to hover around the 50s F (mid 10s C) during the day, while at night they can dip into the low 30s F (single digits C). If you visit Topeka during March, you will probably find that it is crisp. Waterproof jacket that can be used in snow For visiting Topeka, a great option is these boots: In addition to standard footwear, it's important to bring snow boots. It rains sometimes and snows occasionally. Temperatures average in the low 30s F (single digits C) during the day. This Analysis review will also include the Joplin, MO EF-5, El Reno EF-3, Moore, OK EF-5, Greensburg, KS EF-5, and lone supercell tornado interaction with squall lines.January here is pretty cool. The photos, videos and Doppler radar data are assembled to demonstrate the life cycle morphology of this tornadic event from pre-initiation, intensification, and collapse. Damage photos taken following the tornado are used to compare with the 3D radar data and the observed tornado phases. This created the ideal distance for the 3D analysis work performed. The tornado intensifies rapidly and travels east on its path directly towards the Topeka National Weather Service radar. This presentation will cover the 26-mile EF-4 Tornado that was field observed from Niles, Kansas through Chapman, Kansas.
This field work complements the extensive efforts made by the weather research and operations community to better understand these significant tornado weather events. The work from the Doppler Radar Analysis project assists in seeing the role wind flow blocking that develops in the Base Reflectivity plays in the tornado life cycle management. This work assists in seeing where in the storm the tornado is developing as the wind flows are blocked by the developing and mature thunderstorm along with dissipation and cycling. These images are then put in sequence to better visualize the life cycle of the tornado and the images are put into to motion to see the tornado structure evolution. These images are then blended to see the relationships they have with the other radar images during the specific tornado event time and this information is compared to ground damage observed, photos and videos taken and correlated to the Radar. The Doppler Radar data is filtered to allow for specific data images to be created of the Base Reflectivity, Base Velocity, Storm Relative and Normalized Rotation radar scans of a tornadic storm. The project documents tornado formation using 3D analysis utilizing the existing Doppler Radar data which is available in the field in near real time and post event analysis from the archived Doppler Radar data.
Tornadoes play a significant role in the weather of the United States and the Tornado Visualization and Doppler Radar Analysis Project accumulated 10 years of field research on tornado events.
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