is the equation for flow velocity
Poiseuille Equation can only be applied to laminar flow.
Complex equations and their graphs are used to visualize electrical and fluid flow in the real world. For instance, the equation z+1/z can show the flow of water around a circular piling. The equation (z-1)/(z+1) and the graph can show the electrical force fields around two parallel wires carrying current.
Use Mannings Equation: Q=(1.486/n)*(A)*(R)^(2/3)*S^(1/2) Q = Flow (CFS) n = Roughness Coefficient A = Cross sectional flow Area of Fluid (FT*FT) R = Hydraulic Radius (FT) S = Slope (FT/FT)
Shear flow is the flow induced by a force gradient (for a fluid). For solids, it is the gradient of shear stress forces throughout the body.
The answer depends on the nature of the equation. Mathematicians are still not able to solve the Navier-Stokes equations, for example. In fact there is a million dollar (US) prize if you can figure out a general solution. The equations are not simply mathematical contrivances to create a challenge: they deal with fluid flow and are used for studying the flow of liquids inside a pipe, or air-flow over a plane's wings and so on.
fluid flow.
The Laplace equation is used commonly in two situations. It is used to find fluid flow and in calculating electrostatics.
it is influid dynamics, Bernoulli's principle states that for an inviscid flow, an increase in the speed of the fluid occurs simultaneous...
Irregular Fluid Flow is called Turbulent Flow! I hope this helped! :D
Discharge in fluid mechanics is simply a volumetric flow rate of liquid at the exit and it can simply be claculated by the equation of continuity q=(crossectional area of pipe)(velocity of fluid)
from the continuity equation A1v1 = A2v2 according to the continuity equation as the area decreases the velocity of the flow of the liquid increases and hence maximum velocity can be obtained at its throat
A fluid's resistance to flow is called viscosity.
That's more or less what fluid means: something that can flow.
A fluid's resistance to flow is called its viscosity.
resistance to fluid flow.
The relationship between radius and fluid flow rate is inversely proportional. As radius goes down, fluid flow rate goes up. The highest fluid flow rate will be at the lowest radius.
Gravity flow is fluid flowing due to the forces of gravity alone and not to an applied pressure head. In the Bernoulli equation, the pressure term is omitted, and the height and velocity terms are the only ones included.