03-12-2019
W3School Snow develops in clouds that themselves are part of a larger weather system. The physics of snow crystal development in clouds results from a complex set of variables that include moisture content and temperatures. The resulting shapes of the falling and fallen crystals can be classified into a number of basic shapes and combinations, thereof. Occasionally, some plate-like, dendritic and stellar-shaped snowflakes can form under clear sky with a very cold temperature inversion present
Signed up:
09-12-2019
Country:
Albania
City:
Tirana
Reviews from marsillpost
12-12-2019 |
Buenos Aires |
Argentina |
10 / 10 |
10 / 10 |
10 / 10 |
09-12-2019 |
Tirana |
Albania |
7.5 / 10 |
7 / 10 |
9 / 10 |
04-12-2019
W3School employing the available data to make more accurate assessments. One challenge to this assessment is where snow cover is patchy, for example during periods of accumulation or ablation and also in forested areas. Cloud cover inhibits optical sensing of surface reflectance, which has led to other methods for estimating ground conditions underneath clouds. For hydrological models, it is important to have continuous information about the snow cover. Passive microwave sensors are especially valuable for temporal and spatial continuity because they can map the surface beneath clouds and in darkness. When combined with reflective measurements, passive microwave sensing greatly extends the inferences possible about the snowpac