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Diameter of Pipe in Laminar Flow Formulas

The Diameter of Pipe refers to the diameter of the pipe in which the liquid is flowing. And is denoted by Dpipe. Diameter of Pipe is usually measured using the Meter for Length. Note that the value of Diameter of Pipe is always positive.

Formulas to find Diameter of Pipe in Laminar Flow

fxDiameter of Pipe using Dynamic Viscosity with Time​Go
fxDiameter of Pipe given Dynamic Viscosity with Length​Go
fxDiameter of Pipe given Kinematic Viscosity​Go
fxDiameter of Pipe given Head Loss due to Frictional Resistance​Go
fxDiameter of Pipe given Friction Factor​Go
fxDiameter of Pipe given Pressure Drop over Length of Pipe​Go
fxDiameter of Pipe given Pressure Drop over Length of Pipe with Discharge​Go
fxDiameter of Pipe given Head Loss over Length of Pipe​Go
fxDiameter of Pipe given Head Loss over Length of Pipe with Discharge​Go

Laminar Flow formulas that make use of Diameter of Pipe

fxMean Velocity of Flow given Pressure Head Drop​Go
fxDynamic Viscosity of Fluids in Flow​Go
fxCross-Sectional Area of Tube using Dynamic Viscosity​Go
fxLength of Reservoir using Dynamic Viscosity​Go
fxLength of Pipe given Head Loss due to Frictional Resistance​Go
fxHead Loss due to Frictional Resistance​Go
fxDynamic Viscosity given Friction Factor​Go
fxDensity of Fluid given Friction Factor​Go
fxFriction Factor when Head Loss is due to Frictional Resistance​Go
fxFriction Factor​Go
fxMean Velocity of Flow given Head Loss due to Frictional Resistance​Go
fxMean Velocity of Flow given Friction Factor​Go
fxPressure drop over length of pipe​Go
fxMean Velocity of Flow given Pressure Drop over Length of Pipe​Go
fxLength of Pipe given Pressure Drop over Length of Pipe​Go
fxDynamic Viscosity given Pressure Drop over Length of Pipe​Go
fxPressure Drop over Length of Pipe given Discharge​Go
fxLength of Pipe given Pressure Drop over Length of Pipe with Discharge​Go
fxDynamic Viscosity given Pressure Drop over Length of Pipe with Discharge​Go
fxDischarge given Pressure Drop over Length of Pipe​Go
fxHead Loss over Length of Pipe​Go
fxMean Velocity of Flow given Head Loss over Length of Pipe​Go
fxLength of Pipe given Head Loss over Length of Pipe​Go
fxDynamic Viscosity given Head Loss over Length of Pipe​Go
fxSpecific Weight of Liquid given Head Loss over Length of Pipe​Go
fxHead Loss over Length of Pipe given Discharge​Go
fxDynamic Viscosity given Head Loss over Length of Pipe with Discharge​Go
fxLength of Pipe given Head Loss over Length of Pipe with Discharge​Go

List of variables in Laminar Flow formulas

fx Dynamic Viscosity ​Go
fx Time in Seconds ​Go
fx Specific Weight of Liquid ​Go
fx Cross Sectional Area of Pipe ​Go
fx Average Reservoir Area ​Go
fx Length of Pipe ​Go
fx Height of Column 1 ​Go
fx Height of Column 2 ​Go
fx Discharge in Laminar Flow ​Go
fx Head of the Liquid ​Go
fx Kinematic Viscosity ​Go
fx Total Head ​Go
fx Volume of Liquid ​Go
fx Darcy Friction Factor ​Go
fx Mean Velocity ​Go
fx Head Loss due to Friction ​Go
fx Density of Fluid ​Go
fx Pressure Difference ​Go
fx Discharge in Pipe ​Go

FAQ

What is the Diameter of Pipe?
The Diameter of Pipe refers to the diameter of the pipe in which the liquid is flowing. Diameter of Pipe is usually measured using the Meter for Length. Note that the value of Diameter of Pipe is always positive.
Can the Diameter of Pipe be negative?
No, the Diameter of Pipe, measured in Length cannot be negative.
What unit is used to measure Diameter of Pipe?
Diameter of Pipe is usually measured using the Meter[m] for Length. Millimeter[m], Kilometer[m], Decimeter[m] are the few other units in which Diameter of Pipe can be measured.
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