Chris Stumpf’s Radar Images of Joplin tornado. 0.5 Base Reflectivity.

Slides:

Advertisements

Similar presentations

Careers Meteorology. Snow Survey © Ron Nichols, NRCS, Image Source: Earth Science World Image BankEarth Science World Image Bank.

Advertisements

The 4 Sep 2011 Tornado in Eastern New York: An Example for Updating Tornado Warning Strategies Brian J. Frugis NOAA/NWS Albany, NY NROW XIII 2-3 November.

A Refresher on Super-Resolution Radar Data Audra Hennecke, Dave Beusterien.

Lemon and Doswell (1979) Lemon, L. R., and C. A. Doswell III, 1979: Severe thunderstorm evolution and mesoscyclone structure as related to tornadogenesis.

Radar/Storm Interpretation. Thunderstorm Spectrum Minimal Threat (?) Moderate Threat Moderate Threat High Threat Mesocyclone Present.

Northwest Flow – Watch Out: Experience with a Dangerous Canadian Export David Zaff Science and Operations Officer Buffalo, NY Weather Forecast Office Oct.

Anomalous Velocity Signatures in Low Level Super Resolution Data.

Lesson 2 - Introducing Storms

AWIPS Radar Detection and Warning Strategies Using Multiple Workspaces Josh Korotky NOAA/National Weather Service, Pittsburgh PA.

RADAR—sends a beam of microwave energy which bounces off objects of certain size (e.g., raindrops) and returns a signal.

Severe Weather Radar Features. Weak Echo Region (WER) Region of low radar reflectivities on inflow side of storm o Near the surface High reflectivities.

CASC2D Input Data Elevation Land Use Soils Channels Cave Creek Hassyampa River.

Case Study of the May 7, 2002 Tornadic Supercell Outbreak Kathryn Saussy San Francisco State University Department of Geosciences.

More Thunderstorms. Today Homework in Wind shear More multicellular storms.

Documentation of a Tornadic Supercell Thunderstorm in the San Joaquin Valley, California Ted B. Schlaepfer Department of Geosciences San Francisco State.

Weatherford Wind Farm Blue Canyon Wind Farm Appearance of OK Wind Farms Varies with Time and Radar Beam Propagation.

The supercell storm Anthony R. Lupo Atms 4310 / 7310 Lab 12.

Tornadic Thunderstorm Case Study Dodge City, Kansas May 7, 2002 Linh Truong San Francisco State University Linh Truong San Francisco State University.

Supercell Tornadoes, Non- Supercell Tornadoes, and Gustnadoes.

Principal Rainband of Hurricane Katrina as observed in RAINEX Anthony C. Didlake, Jr. 28 th Conference on Hurricanes and Tropical Meteorology April 29,

The 4 August 2004 Central Pennsylvania Severe Weather Event – Environmental and Topographical Influences on Storm Structure Evolution Joe Villani NOAA/NWS,

May 31, 1985 Moshannon Forest Tornado By Henry Margusity Sr. Meteorologist AccuWeather.com.

Echolocation II Sonar Radar Who launches first? Sonar “Ping” Who finds the other first? SONAR in ships works like echolocation in whales and bats. The.

Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from.

Weather Radar Overview Jody James Senior Forecaster Aviation Safety Counselor National Weather Service, Lubbock.

Chad Entremont Daniel Lamb NWS Jackson, MS

Read. Answer the following in your notebook:  What type of pressure systems produce hurricanes, tornadoes, and winter weather storms?  What things do.

Tornadoes A thesis by Joao Vitor and Igor Neubauer.

THUNDERSTORMS AND TORNADOES by Ernest M. Agee. An aerial view of a classic supercell thunderstorm above southern Maryland on 29 April At the time.

Trip planned Nov Duration  May 16 – May 24, 2013 Participants  Ohio State students & alum  Friends of the National Weather Service/Storm Prediction.

Deep convection 2 Wilfried Jacobs DWD Meteorological Training and Conference Centre.

Deep Convection Ordinary Cells Multicell storms Supercells.

Tropical Severe Local Storms Nicole Hartford. How do thunderstorms form?  Thunderstorms result from moist warm air that rises due to being less dense.

The Garden City, Kansas, storm during VORTEX 95. Part I: Overview of the Storm’s life cycle and mesocyclogenesis Roger M. Wakimoto, Chinghwang Liu, Huaquing.

Chapter 11: severe weather!! (a)thunderstorms (classification) (b)tornadoes (c)lightning, and (d)hail.

METR February Radar Products More Radar Background Precipitation Mode: -Volume Coverage Patterns (VCP) 21: 9 elevation angles with a complete.

A Case Study of Two Left-Moving Mesoanticyclonic Supercells on 24 April 2006 Chris Bowman National Weather Service – Wichita, KS.

HWT Spring Experiment 2011 model comparisons 1 June OK-MO severe storms Very subtle boundaries, really not a lot of surface forcing But lots of storms.

Intro Radar Workshop.

“Real data OSSE” EnKF analysis of storm from 6 June 2000 (STEPS) Assimilated observed radar reflectivity and radial velocity. Activated electrification.

 Refraction Applications  Seismology  Optomology PRESENTATION OUTLINE.

Read. Answer the following in your notebook:  What type of pressure systems produce hurricanes, tornadoes, and winter weather storms?  What things do.

Images for reflection. Que

Ordinary Cells Multicell storms Supercells

The 1 November 2004 tornadic QLCS event over southwest Illinois Ron W. Przybylinski Science and Operations Officer National Weather Service – St. Louis.

Anthony Phillips Department of Geography Virginia Tech.

Supercells Eric A. Pani The University of Louisiana at Monroe.

Radar Interpretation Chad Entremont National Weather Service Jackson, MS.

Weather & Climate. Weather & Climate Definitions Weather- “the state of the atmosphere with respect to heat or cold, wetness or dryness, calm or storm,

Here the two cells are still clearly separated, beginning to merge on the next slide. Martin Setvák.

WSR - 88D Characteristics of Significant Tornadoes in New York and New England Lance Franck University of Massachusetts Hayden Frank NOAA/NWS/Weather.

Radar Observation of Severe Weather

Northeast US Tornadoes and Tornado Debris Signatures

Ted B. Schlaepfer Department of Geosciences

Chapter 18 - Tornadoes.

Family Fanny Fun By: Brian Cizek.

Examples of spectral fields

Weather: Maps, Symbols, and Basic Concepts

Tornadoes Tornadoes 101.

Jennifer C. DeHart, Robert A. Houze, Jr. and Deanna A. Hence

Bond Length-Bond Energy Connection

10.2 How we see the image.

Does Weather Control Your Life???

Tornadic Thunderstorm Case Study Dodge City, Kansas May 7, 2002

Chris Stumpf’s Radar Images of Joplin tornado

Visual and Performing Arts

Presentation transcript:

Chris Stumpf’s Radar Images of Joplin tornado

0.5 Base Reflectivity

1.5 Base Reflectivity

2.5 Base Reflectivity

0.5 Base Velocity

1.5 Base Velocity

2.5 Base Velocity

0.5 Storm Relative Velocity

1.5 Storm Relative Velocity

2.5 Storm Relative Velocity

BWER 0.5 Tilt BR Notice weaker returns between hook and center of storm.

BWER 1.5 Tilt BR The weaker echoes have now strengthened but still some slight evidence of a hook

BWER 2.5 Tilt BR No clear view of hook at all just strong echoes directly over area of weak Echoes at the surface.

BWER 3D Visualization of storm structure Notice vault/dome in between the hook and the center of the storm.

0.5 BR with TVS