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Mean Velocity in Laminar Flow Formulas
The Mean Velocity refers to the average speed at which fluid flows through a given cross-sectional area of a pipe or channel. And is denoted by V
mean
. Mean Velocity is usually measured using the Meter per Second for Speed. Note that the value of Mean Velocity is always negative.
Formulas to find Mean Velocity in Laminar Flow
f
x
Mean Velocity of Fluid Flow
Go
f
x
Mean Velocity of Flow given Maximum Velocity at Axis of Cylindrical Element
Go
f
x
Mean Velocity of Flow given Head Loss due to Frictional Resistance
Go
f
x
Mean Velocity of Flow given Friction Factor
Go
f
x
Mean Velocity of Flow given Shear Stress and Density
Go
f
x
Mean Velocity of Flow given Shear Velocity
Go
f
x
Mean Velocity of Flow given Total Required Power
Go
f
x
Mean Velocity of Flow given Pressure Drop over Length of Pipe
Go
f
x
Mean Velocity of Flow given Head Loss over Length of Pipe
Go
Laminar Flow formulas that make use of Mean Velocity
f
x
Maximum Velocity at Axis of Cylindrical Element given Mean Velocity of Flow
Go
f
x
Radius of Pipe for Mean Velocity of Flow
Go
f
x
Pressure Gradients given Mean Velocity of Flow
Go
f
x
Length of Pipe given Head Loss due to Frictional Resistance
Go
f
x
Head Loss due to Frictional Resistance
Go
f
x
Diameter of Pipe given Head Loss due to Frictional Resistance
Go
f
x
Dynamic Viscosity given Friction Factor
Go
f
x
Density of Fluid given Friction Factor
Go
f
x
Diameter of Pipe given Friction Factor
Go
f
x
Density of Liquid using Mean Velocity given Shear Stress with Friction Factor
Go
f
x
Shear Stress given Friction Factor and Density
Go
f
x
Density of Liquid given Shear Stress and Darcy Friction Factor
Go
f
x
Shear Velocity
Go
f
x
Total Required Power
Go
f
x
Area of Pipe given Total Required Power
Go
f
x
Pressure Gradient given Total Required Power
Go
f
x
Friction Factor when Head Loss is due to Frictional Resistance
Go
f
x
Friction Factor
Go
f
x
Friction Factor given Shear Stress and Density
Go
f
x
Friction Factor given Shear Velocity
Go
f
x
Pressure drop over length of pipe
Go
f
x
Diameter of Pipe given Pressure Drop over Length of Pipe
Go
f
x
Length of Pipe given Pressure Drop over Length of Pipe
Go
f
x
Dynamic Viscosity given Pressure Drop over Length of Pipe
Go
f
x
Head Loss over Length of Pipe
Go
f
x
Diameter of Pipe given Head Loss over Length of Pipe
Go
f
x
Length of Pipe given Head Loss over Length of Pipe
Go
f
x
Dynamic Viscosity given Head Loss over Length of Pipe
Go
f
x
Specific Weight of Liquid given Head Loss over Length of Pipe
Go
List of variables in Laminar Flow formulas
f
x
Dynamic Viscosity
Go
f
x
Pressure Gradient
Go
f
x
Radius of pipe
Go
f
x
Maximum Velocity
Go
f
x
Head Loss due to Friction
Go
f
x
Diameter of Pipe
Go
f
x
Darcy Friction Factor
Go
f
x
Length of Pipe
Go
f
x
Density of Fluid
Go
f
x
Shear Stress
Go
f
x
Shear Velocity
Go
f
x
Power
Go
f
x
Cross Sectional Area of Pipe
Go
f
x
Pressure Difference
Go
f
x
Specific Weight of Liquid
Go
FAQ
What is the Mean Velocity?
The Mean Velocity refers to the average speed at which fluid flows through a given cross-sectional area of a pipe or channel. Mean Velocity is usually measured using the Meter per Second for Speed. Note that the value of Mean Velocity is always negative.
Can the Mean Velocity be negative?
Yes, the Mean Velocity, measured in Speed can be negative.
What unit is used to measure Mean Velocity?
Mean Velocity is usually measured using the Meter per Second[m/s] for Speed. Meter per Minute[m/s], Meter per Hour[m/s], Kilometer per Hour[m/s] are the few other units in which Mean Velocity can be measured.
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