Midlatitude Summer

Midlatitude Summer Patrick and Ian

A) 70km, looking down CO2 = 280ppm No Clouds Total Irradiance = 280.873 W/m2 Ground T = 294.2K

B) 70km, looking down CO2 = 0 ppm No Clouds Total Irradiance = 307.563 W/m2 Ground T = 294.2 K

C) 70km, looking down CO2 = 375 ppm No Clouds Total Irradiance = 279.648 W/m2 Ground T = 294.2 K To obtain I = 280.873 W/m2 temperature offset of .35C T = 294.55

D) 70km, looking down CO2 = 800 ppm No Clouds Total Irradiance = 276.508 W/m2 Ground T = 294.2 K To obtain I = 280.873 W/m2 temperature offset of 1.29C T = 295.49 K

E) 0km, looking up CO2 = 280 ppm No Clouds Total Irradiance = 309.604 W/m2

F) 0km, looking up CO2 = 375 ppm No Clouds Total Irradiance = 310.420 W/m2 ∆T = .15 C

G) 0km, looking up CO2 = 375 ppm Cumulus near surface Total Irradiance = 391.244 W/m2 ∆T = 14.8 C

H) 0km, looking up CO2 = 375 ppm Cirrus: standard Total Irradiance = 313.309 W/m2 ∆T = .67 C

I) 0km, looking up CO2 = 800 ppm No Clouds Total Irradiance = 312.681 W/m2 ∆T = .556 C

Midlatitude Summer

Midlatitude Summer

Presentation Transcript

Midlatitude Cyclones (Storms)

The Midlatitude Cyclone

Midlatitude Cyclones

A Subtropical Cyclonic Gyre of Midlatitude Origin

Midlatitude Weather Patterns: Connecting the Dots

Potential importance of midlatitude oceanic frontal latitude

Summer? Summer .

An Operational Ingredients-Based Methodology for Forecasting Midlatitude

Three-Dimensional Airflow Through Fronts and Midlatitude Cyclones

WB57 Midlatitude Cirrus Experiment (WB MidCiX) Aircrew Briefing

Life Cycle of Warm-Season Midlatitude Convection

Midlatitude Cyclogenesis

Chapter 10 – Midlatitude Cyclones

Three-Dimensional Airflow Through Fronts and Midlatitude Cyclones

Midlatitude Cyclones (Storms)

Midlatitude cyclones

Clouds in the Southern midlatitude oceans