This is because clouds have more -
complex microphysics than the open sky, so even small errors in the models can cascade into large uncertainties in the forecast.
Not exact matches
The Cloud, Aerosol, and
Complex Terrain Interactions (CACTI) experiment in the Sierras de Córdoba mountain range of north - central Argentina is designed to improve understanding of cloud life cycle and organization in relation to environmental conditions so that cumulus,
microphysics, and aerosol parameterizations in multi-scale models can be improved.
The greater lesson: Cloud
microphysics and cloud updraft dynamics interact with surface processes in very
complex and unexpected ways which defy simple hypotheses.
The Cloud, Aerosol, and
Complex Terrain Interactions (CACTI) field campaign in the Sierras de Córdoba mountain range of north - central Argentina is designed to improve understanding of cloud life cycle and organization in relation to environmental conditions so that cumulus,
microphysics, and aerosol parameterizations in multiscale models can be improved.