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• Radiation_stress abstract "In fluid dynamics, the radiation stress is the depth-integrated – and thereafter phase-averaged – excess momentum flux caused by the presence of the surface gravity waves, which is exerted on the mean flow. The radiation stresses behave as a second-order tensor. The radiation stress tensor describes the additional forcing due to the presence of the waves, which changes the mean depth-integrated horizontal momentum in the fluid layer. As a result, varying radiation stresses induce changes in the mean surface elevation (wave setup) and the mean flow (wave-induced currents). For the mean energy density in the oscillatory part of the fluid motion, the radiation stress tensor is important for its dynamics, in case of an inhomogeneous mean-flow field. The radiation stress tensor, as well as several of its implications on the physics of surface gravity waves and mean flows, were formulated in a series of papers by Longuet-Higgins and Stewart in 1960–1964.Radiation stress derives its name from the analogous effect of radiation pressure for electromagnetic radiation.".
• Radiation_stress thumbnail Southland_Beach_Almost_Tropical.jpg?width=300.
• Radiation_stress wikiPageID "29491194".
• Radiation_stress wikiPageRevisionID "543398169".
• Radiation_stress hasPhotoCollection Radiation_stress.
• Radiation_stress subject Category:Physical_oceanography.
• Radiation_stress subject Category:Water_waves.
• Radiation_stress type Abstraction100002137.
• Radiation_stress type Event100029378.
• Radiation_stress type Happening107283608.
• Radiation_stress type Movement107309781.
• Radiation_stress type PsychologicalFeature100023100.
• Radiation_stress type WaterWaves.
• Radiation_stress type Wave107352190.
• Radiation_stress type YagoPermanentlyLocatedEntity.
• Radiation_stress comment "In fluid dynamics, the radiation stress is the depth-integrated – and thereafter phase-averaged – excess momentum flux caused by the presence of the surface gravity waves, which is exerted on the mean flow. The radiation stresses behave as a second-order tensor. The radiation stress tensor describes the additional forcing due to the presence of the waves, which changes the mean depth-integrated horizontal momentum in the fluid layer.".
• Radiation_stress label "Radiation stress".
• Radiation_stress sameAs m.0ds5jqm.
• Radiation_stress sameAs Q7280367.
• Radiation_stress sameAs Q7280367.
• Radiation_stress sameAs Radiation_stress.
• Radiation_stress wasDerivedFrom Radiation_stress?oldid=543398169.
• Radiation_stress depiction Southland_Beach_Almost_Tropical.jpg.
• Radiation_stress isPrimaryTopicOf Radiation_stress.