- Makarieva A.M., Gorshkov V.G., Nefiodov A.V., Sheil D., Nobre A.D., Bunyard P., Li B.-L. (2013)
**Examining the physical principles behind the motion of moist air: Which expressions are sound?**arXiv:1308.6301 [physics.flu-dyn]. Previous version: No reactive motion resulting from condensation. Paper's history. *Abstract*

The physical equations determining the motion of moist atmospheric air in the presence of condensation remain controversial. Two distinct formulations have been proposed, published and cited. The equation of Bannon [2002, J. Atmos. Sci. 59: 1967–1982] includes a term for a "reactive motion" that arises when water vapor condenses and droplets begin to fall; according to this term the remaining gas moves upwards so as to conserve momentum. In the equation of Ooyama [2001, J. Atmos. Sci. 58: 2073–2102] the reactive motion term is absent. Both equations contain a term for condensate loading, but in the formulation of Ooyama [2001] there are two additional terms. In some modern nonhydrostatic models of moist atmospheric circulation, however, formulations have been mixed. Here we examine the contrasting equations for the motion of moist air. We discuss inconsistencies in the application of Newton’s second and third laws to an air and condensate mixture. We show that the concept of reactive motion in this context is based on a misunderstanding of the conservation of momentum in the presence of a gravitational field: such a reactive motion does not exist. We show that the "mixed" equation used in some models is not physically consistent either. We examine why consideration of total momentum, that is air and condensate combined, has been misleading in the search for valid equations of motion in the presence of phase transitions.

*Notes*

- Макарьева А.М., Горшков В.Г., Нефёдов А.В., Шейл Д., Нобре А.Д., Буньярд П., Ли Б.-Л. (2013)
**Исследуем физические принципы движения влажного воздуха: какие уравнения правильны?**arXiv:1308.6301 [physics.flu-dyn]. [на англ. яз.] Предыдущая версия: Конденсация не приводит к реактивному движению воздуха. История статьи. *Аннотация*

The physical equations determining the motion of moist atmospheric air in the presence of condensation remain controversial. Two distinct formulations have been proposed, published and cited. The equation of Bannon [2002, J. Atmos. Sci. 59: 1967–1982] includes a term for a "reactive motion" that arises when water vapor condenses and droplets begin to fall; according to this term the remaining gas moves upwards so as to conserve momentum. In the equation of Ooyama [2001, J. Atmos. Sci. 58: 2073–2102] the reactive motion term is absent. Both equations contain a term for condensate loading, but in the formulation of Ooyama [2001] there are two additional terms. In some modern nonhydrostatic models of moist atmospheric circulation, however, formulations have been mixed. Here we examine the contrasting equations for the motion of moist air. We discuss inconsistencies in the application of Newton’s second and third laws to an air and condensate mixture. We show that the concept of reactive motion in this context is based on a misunderstanding of the conservation of momentum in the presence of a gravitational field: such a reactive motion does not exist. We show that the "mixed" equation used in some models is not physically consistent either. We examine why consideration of total momentum, that is air and condensate combined, has been misleading in the search for valid equations of motion in the presence of phase transitions.

*Примечания*