01: Under laminar condition, the pressure drop per unit length of a small-bore tube is a function only of: discharge, fluid viscosity, coefficient of friction losses and tube radius. Using a theorem, rewrite this relation in dimensionless form using (FLT) system.

Structural Analysis
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Chapter2: Loads On Structures
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Q1: Under laminar condition, the pressure drop per unit length of a small-bore tube is a function only
of: discharge, fluid viscosity, coefficient of friction losses and tube radius. Using a theorem,
rewrite this relation in dimensionless form using (FLT) system.
Transcribed Image Text:Q1: Under laminar condition, the pressure drop per unit length of a small-bore tube is a function only of: discharge, fluid viscosity, coefficient of friction losses and tube radius. Using a theorem, rewrite this relation in dimensionless form using (FLT) system.
Expert Solution
Step 1 Interpretation of data

Data Given:

Pressure drop = dpdxDischarge = QFluid Viscosity = μCoefficient of friction loss = fTube radius = R

Asked:

  • Dimensionless form using π theorem
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