Add to ORKGSupercell thunderstorms produce the complete spectrum of hazardous weather associated with atmospheric convection: tornadoes, large hail, strong "straight
This report presents a summary of damage caused by hurricanes, floods, tornadoes, lightning, hail, t...
Small-scale (2–20 km) circulations, termed ‘severe deep moist convective storms’, account for a disp...
Thunderstorm research is strongly motivated by the wish to reduce the harm they do to people and the...
Convective windstorms are driven by downdrafts, the physics of which are relatively sim-ple and corr...
The previous chapter was mainly concerned with the effects of strong winds generated by secondary fe...
Supercell thunderstorms are well-known for their capability to produce severe lo-cal storm phenomena...
Supercell thunderstorms, the storm systems responsible for most tornadoes, have often been dismissed...
A popular misconception in the past has been that storms with associated mesocyclones (supercells) a...
The case of 7–8 June 1998 in eastern New Mexico and western Texas is used to illustrate the challeng...
This study is an expansion of Gallus et al. (2008) (hereafter, G08), in which all convective systems...
The National Weather Service (NWS) is charged with the responsibility of issuing severe weather warn...
Strong, local convective weather events are capable of causing extensive damage, but weather observa...
During the warm seasons (May–September) of 1996–99, Weather Surveillance Radar-1988 Doppler (WSR-88D...
The term extreme weather normally conjures up thoughts of massive storms or heat waves or overtly co...
There are still hundreds of casualties produced by thunderstorm hazards each year in the U.S. despit...
This report presents a summary of damage caused by hurricanes, floods, tornadoes, lightning, hail, t...
Small-scale (2–20 km) circulations, termed ‘severe deep moist convective storms’, account for a disp...
Thunderstorm research is strongly motivated by the wish to reduce the harm they do to people and the...
Convective windstorms are driven by downdrafts, the physics of which are relatively sim-ple and corr...
The previous chapter was mainly concerned with the effects of strong winds generated by secondary fe...
Supercell thunderstorms are well-known for their capability to produce severe lo-cal storm phenomena...
Supercell thunderstorms, the storm systems responsible for most tornadoes, have often been dismissed...
A popular misconception in the past has been that storms with associated mesocyclones (supercells) a...
The case of 7–8 June 1998 in eastern New Mexico and western Texas is used to illustrate the challeng...
This study is an expansion of Gallus et al. (2008) (hereafter, G08), in which all convective systems...
The National Weather Service (NWS) is charged with the responsibility of issuing severe weather warn...
Strong, local convective weather events are capable of causing extensive damage, but weather observa...
During the warm seasons (May–September) of 1996–99, Weather Surveillance Radar-1988 Doppler (WSR-88D...
The term extreme weather normally conjures up thoughts of massive storms or heat waves or overtly co...
There are still hundreds of casualties produced by thunderstorm hazards each year in the U.S. despit...
This report presents a summary of damage caused by hurricanes, floods, tornadoes, lightning, hail, t...
Small-scale (2–20 km) circulations, termed ‘severe deep moist convective storms’, account for a disp...
Thunderstorm research is strongly motivated by the wish to reduce the harm they do to people and the...