The discussion revolves around the apparent contradiction between Bernoulli's equation and the general formula for pressure in a fluid, particularly in the context of fluid dynamics in vertical pipes with varying cross-sectional areas. Participants explore the implications of fluid incompressibility, pressure types, and the relationship between fluid flow and force.
Participants express differing views on the relationship between pressure and fluid dynamics, with no consensus reached on the interpretation of Bernoulli's equation versus the general pressure formula. The discussion remains unresolved, with multiple competing perspectives presented.
Participants have not fully resolved assumptions regarding fluid compressibility and the conditions under which the general pressure formula applies. The discussion reflects varying interpretations of pressure types and their implications in fluid dynamics.
andytinker said:Some fluids have minimal compression, like water. Two vertical pipes joined at the bottom with one smaller than the other would have movement.
It would be if F were a constant. In Bernoulli's equation it is the fluid flow that is constant, not the forcemoatasim23 said:According to Bernoulli eq Pressure of a fluid in a vertical pipe is lower where area is small.But from General formula P=F/A.Pressure should be higher.Isnt it a contradiction?
HallsofIvy said:It would be if F were a constant. In Bernoulli's equation it is the fluid flow that is constant, not the force
andytinker said:With minimal compression, the fluid doesn't follow PV=P1V1. If you have flow from a small section to large the pressure is lower, if its a compressible fluid that gets changed to velocity F=mv2, if its not velocity slows down.
I think