supercell rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself...

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Supercell • Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours • What makes a supercell different from all other thunderstorms? – ROTATION • Requires both speed and directional wind shear • Contains a mesocyclone – A cyclonically rotating vortex, 2-10 km in diameter, within a convective storm • Often a “right-mover” – Moves to the right of the general flow where it gets the best air and rotation is stronger

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Page 1: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

Supercell• Rotating thunderstorm with updrafts and

downdrafts structured so it can maintain itself for several hours

• What makes a supercell different from all other thunderstorms?– ROTATION

• Requires both speed and directional wind shear• Contains a mesocyclone

– A cyclonically rotating vortex, 2-10 km in diameter, within a convective storm

• Often a “right-mover”– Moves to the right of the general flow where it gets the

best air and rotation is stronger

Page 2: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

Where do Supercells Form?

Page 3: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

Structure of a Supercell

Page 4: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

Radar Structure

Map View of a Supercell

Page 5: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

Map View of a Supercell

V-NotchUpdraft obstructs air flow, precipitation pattern gets split

BWER – Bounded Weak Echo Region (echo-free vault)

Page 6: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

3 May 1999 – Radar Reflectivity

Page 7: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

Page 8: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

Page 9: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

Three Supercell Classifications

• Low Precipitation (LP)– Little to no precipitation– Generally does not produce tornadoes

• Classic– Contains structure described already

• High Precipitation (HP)– Lots of precipitation– Rain-wrapped tornadoes

Page 10: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

LP Supercell

Page 11: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

Classic Supercell

Page 12: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

HP Supercell

Page 13: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

Mammatus Clouds

© C. Godfrey 4 June 2001, Wellington, KS

Page 14: Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from

The Take-Home Message About Supercells

• Supercells are rotating thunderstorms

• Supercells have one rotating updraft and one or more downdrafts

• Supercells form in environments with strong wind shear (change in speed AND direction with height)

• Supercells often produce tornadoes

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