The difference between convective and stratiform clouds are convective clouds tend to be deeper than stratiform clouds and gives the appearance of boiling liquid and stratiform clouds are shallow, layered and more quiescent.
Both types of clouds may occur in the same atmospheric systems.
Stratiform clouds with little or no turbulence are clouds that develop if the warm air that overrides the front is stable and precipitation that forms with stratiform clouds is also usually steady with little to no turbulence.
If the warm air that is overriding the front is stable then stratiform clouds develop and if the warm air is unstable, cumuliform clouds develop and any precipitation from stratiform clouds is most often stead with little to no turbulence.
The height of stratiform clouds depends on the group of stratiform clouds as there are 3 groups of stratiform clouds which include the high level stratiform clouds which are above 20,000 feet high, middle level stratiform clouds which are 6,500 ft to 20,000 ft and low level stratiform clouds which are below 6,500 ft.
A stratiform rain is rain that is relatively continuous and uniform in intensity.
Stratiform rings and bands occur between active connective bands of a hurricane outside of the eye wall.
Stratocumulus clouds indicate a change in the weather and are most often present near a occluded front, cold front or warm front and usually form from a layer of stratus cloud breaking up.
Stratocumulus clouds don't always produce any precipitation or rain and when they do it is generally only light rain or light snow
However stratocumulus clouds often are seen at either the front or tail end of worse weather so they may indicate that storms are to come, in the form of thunderheads and or gusty winds.
The cause of stratiform clouds is steady and continuous rain that falls from the nimbostratus cloud which adds substantial amounts of humidity to the air.
The stratiform cloud may also form ahead of the front in the cold air mass or behind the warm front in the warm air mass.
Stratiform clouds which are also called stratus clouds, themselves come in four varieties: cirrostratus, altostratus, stratus and nimbostratus.
Some of these stratus clouds provide a strong indication of approaching precipitation, while others produce precipitation.
An example of a stratiform cloud is a stratus cloud.
Other examples of stratiform clouds are cirrus clouds, cirrostratus clouds, altostratus clouds and nimbostratus clouds.
Stratiform clouds are cloud formations which are not vertically developed.
The stratiform clouds are formed in relatively stable conditions, where lifted air will be restricted, and instead be spread out horizontally.
The cloud base may also be quite low, if not actually touching the ground (fog).
Stratus clouds are the ones we see on overcast days when the sky is one big featureless expanse of grey.
Like cumulus clouds, the stratus clouds form low in the sky — so low, in fact, that they often touch the ground, producing dense fog.
Stratiform clouds which are also called stratus clouds, themselves come in four varieties: cirrostratus, altostratus, stratus and nimbostratus.
Some of these stratus clouds provide a strong indication of approaching precipitation, while others produce precipitation.
Stratiform or stratus clouds indicate stability. Stratus means layered.
Cumuliform or cumulus clouds are "puffy" and indicate instability. - Precipitating stratiform clouds produce rain or snow, while precipitating cumuliform clouds produce showers.
If the warm air overriding the front is stable, stratiform clouds develop.
If the warm air is unstable, cumuliform clouds develop.
Precipitation from stratiform clouds is usually steady and there is little or no turbulence.
Cumuliform clouds occur in unstable atmospheric conditions and are formed with buoyant air parcels undergoing convection, while more layered stratiform clouds occur in stable atmospheric conditions.