Having spatial scales from one to several hundred kilometres Thunderstorms are mesoscale phenomena
The scale of meteorological phenomena that range in size from several kilometers to around 100 kilometers This includes MCCs, MCSs, and squall lines Smaller phenomena are classified as microscale while larger are classified as synoptic-scale
Between roughly 10 and 1000 km in horizontal dimensions, about the size of an average state
spatial scales intermediate between small and synoptic scales of weather systems
Smaller scale weather features that exist for minutes or hours Examples of mesoscale atmospheric phenomena are thunderstorms, tornadoes, and land-sea breezes
A size of weather system Mesoscale systems are generally from 100 to 1000 square miles in size
Size scale referring to weather systems smaller than synoptic-scale systems but larger than storm-scale systems Horizontal dimensions generally range from around 50 miles to several hundred miles Squall lines, MCCs, and MCSs are examples of mesoscale weather systems
pertaining to meteorological phenomena, such as wind circulations or cloud patterns, that are about 2 to 200 km in horizontal extent
The scale of meteorological phenomena that includes MCCs, MCSs, and squall lines These weather systems may cover fifty to several hundreds of miles Smaller phenomena are classified as storms, while larger are classified as synoptic-scale
Size scale referring to weather systems smaller than synoptic-scale systems but larger than single storm clouds Horizontal dimensions generally range from around 50 miles to several hundred miles Squall lines are an example of mesoscale weather systems
atmospheric processes that occur on the spatial scale from 10s to 100s of kilometers
A device or structure larger than the nanoscale (10^-9 m) and smaller than the megascale; the exact size depends heavily on the context and usually ranges between very large nanodevices (10^-7 m) and the human scale (1 m) [AS]