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Fluid Momentum Flux Equation and Calculator
Fluids Dynamics and Engineering
Hydraulic and Pneumatic Knowledge
Fluid Momentum Flux Equation and Calculator
Momentum Flux is the rate of change of momentum flowing through unit area.
Mass flow rate of a system is a measure of the mass of fluid passing a point in the system per unit time. The mass flow rate is related to the volumetric flow rate.
Eq. 1
Calculation of momentum Flux
τxy = - µ · ( Δvx / Δy )
This equation, which states that the shearing force per unit area is proportional to the negative of the velocity gradient, is often called Newton's law of viscosity. Actually we should not refer to Eq. 1 as a "law," since Newton suggested it as an empiricism the simplest proposal that could be made for relating the stress and the velocity gradient.
Where:
µ = Fluid Viscosity (lbf · s/ft2)
Δvx = Change in Velocity in the x-direction (ft/s)
Δy = Plate Separation in the y-direction (ft)
τxy = Momentum Flux (lbf/ft2)
Summary of Units for Quantities
SI |
c.g.s |
British |
|
τxy |
Pa |
dyn/cm2 |
poundals/ft2 |
vx |
m/s |
cm/s |
ft/s |
y |
m |
cm |
ft |
µ |
Pa · s |
gm/cm · s = poise |
lbm/ft · s |
v |
m2/s |
cm2/s |
ft2/s |
Viscosity of Water and Air at 1 atm Pressure
Temperature T ("C) |
Water (liq.)a |
Airb |
||
Viscosity p (mPa s) |
Kinematic viscosity v (cm2/s) |
Viscosity p (mPa. s) |
Kinematic viscosity v (cm2/s) |
|
0 |
1.787 |
0.01 787 |
0.01716 |
|
20 |
1.0019 |
0.010037 |
0.01813 |
|
40 |
0.6530 |
0.006581 |
0.01908 |
|
60 |
0.4665 |
0.004744 |
0.01999 |
|
80 |
0.3548 |
0.003651 |
0.02087 |
|
100 |
0.2821 |
0.002944 |
0.02173 |
|
a Calculated from the results of R. C. Hardy and R. L. Cottington, J. Research Nut. Bur. Standards, 42,
573-578 (1949); and J. F. Swidells, J. R. Coe, Jr., and T. B. Godfrey, J. Research Naf. Bur. Standards, 48,l-31
(1952).
b Calculated from "Tables of Thermal Properties of Gases," National Bureau of Standards Circular 464
(1955), Chapter 2.
Viscosities of Some Gases and Liquids at Atmospheric Pressure
Source:
Bird, R.B., Stewart, W.E. and Lightfoot, E.N. (2002). Transport Phenomena (Second ed.). John Wiley & Sons, Chapter: 1, Page: 15.
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