Explanation Given information: Inner Diameter of pipe is 2.5 cm , density of oil is 860 kg / m 3 ,dynamic viscosity of oil is 0.0103 kg / m ⋅ s , and pressure difference is 98.5 Pa . Write the expression for Reynolds number. Re = ρ V D μ ........... (I) Here Reynolds number is Re , density of oil is ρ , velocity of oil in the pipe is V , dynamic viscosity of oil is μ . Write the expression for velocity of Pitot tube Δ P = 1 2 ρ V 2 ........... (II) Here, pressure difference is Δ P . Calculation: Substitute 98.5 Pa for Δ P , 860 kg / m 3 for ρ in Equation (II). 98.5 Pa = 1 2 ( 860 kg / m 3 ) V 2 ( 98.5 Pa ) ( 1 kg / ms 2 1 Pa ) = 1 2 ( 860 kg / m 3 ) V 2 V = 0

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ISBN: 9781266016042

Author: CENGEL

Publisher: MCG CUSTOM

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Chapter 8, Problem 111P

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The Reynolds number of the flow.

The Type of flow.

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Chapter 8, Problem 110P

Chapter 8, Problem 112P

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Chapter 8 Solutions

FLUID MECHANICS FUND. (LL)-W/ACCESS

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The Reynolds number of the flow. The Type of flow.

Solution Summary: The author explains the Reynolds number of the flow and the type of flow. The flow is laminar.

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The Reynolds number of the flow. The Type of flow.

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Chapter 8 Solutions

The Reynolds number of the flow.

The Type of flow.