Explanation Given information: The density of the particle is ρ p , the diameter of the particle is D p , the fluid viscosity is μ , the terminal settling speed is V and the acceleration due to gravity is g , the density of the air is ρ and the density difference is ( ρ p − ρ ) . Expression for the settling velocity, V = f ( D p , ( ρ p − ρ ) , μ , g ) ...... (I) Expression for the number of the pi terms, N = n − j ...... (II) Here, the total number of the repeating variables is j and the total number of the variables is n . The total number of the variable is 5 ( V , D p , ( ρ p − ρ ) , μ , g ) and the number of the repeating variables is 3 ( D p , ( ρ p − ρ ) , g ) . Substitute 5 for n and 3 for j in equation (II). N = 5 − 3 = 2 Expression for the first pi term, Π 1 = V D p a ( ρ p − ρ ) b g c ...... (III) Expression for the second pi term, Π 2 = μ D p a ( ρ p − ρ ) b g c ...... (IV) Expression for the relation between the pi term and Reynolds number, Π 1 = f ( Re ) ...... (V) Dimensional expression for the settling velocity, V = [ L t − 1 ] ..... (VI) Here, the length is L and the time is t . Dimensional expression for the viscosity, μ = [ m L − 1 t − 1 ] ..... (VII) Here, the mass is m . Dimensional expression for the diameter, L = [ L ] ..... (VIII) Dimensional expression for the density difference, ( ρ p − ρ ) = [ m L − 3 ] ..... (IX) Dimensional expression for the acceleration due to gravity, g = [ L t − 2 ] ..... (X) Calculation: Substitute [ m 0 L 0 t 0 ] for Π 1 , [ L t − 2 ] for g , [ L t − 1 ] for V , [ L ] for D p and [ m L − 3 ] for ( ρ p − ρ ) in Equation (III) [ m 0 L 0 t 0 ] = [ L t − 1 ] [ L ] a [ m L − 3 ] b [ L t − 2 ] c [ m 0 L 0 t 0 ] = [ L ] 1 + a − 3 b + c [ m ] b [ t ] − 1 − 2 c ...... (XI) Compare the power of the dimensional terms of m in Equation (XI). b = 0 Compare the power of the dimensional terms of t in Equation (XI). − 1 − 2 c = 0 c = − 1 2 Compare the power of the dimensional terms of L in Equation (XI). 1 + a − 3 b + c = 0 1 + a − 3 ( 0 ) + ( − 1 2 ) = 0 a = − 1 2 Substitute − 1 2 for a , − 1 2 for c and 0 for b in Equation (III) Π 1 = V D p − 1 2 ( ρ p − ρ ) 0 g − 1 2 = V D p g

Fluid Mechanics Fundamentals And Applications

3rd Edition

ISBN: 9780073380322

Author: Yunus Cengel, John Cimbala

Publisher: MCGRAW-HILL HIGHER EDUCATION

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Chapter 7, Problem 62P

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The relationship for the V using dimensional analysis.

The name of the established dimensionless parameter during the analysis.

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Chapter 7, Problem 61P

Chapter 7, Problem 63P

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Fluid Mechanics Fundamentals And Applications

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The relationship for the V using dimensional analysis.

The name of the established dimensionless parameter during the analysis.