Explanation Given information: The temperature of water is 10 ° C , diameter of tube is 3 cm , dynamic viscosity of water is 1.307 × 10 − 3 kg / m ⋅ s , density of water is 999.7 kg / m 3 and velocity of water is 1.25 m / s . Write the expression for Reynolds number. Re = ρ v D μ ........... (I) Here, Reynolds number is Re , density of water is ρ , dynamic viscosity of water is μ , velocity of water is v and diameter of tube is D . Calculation: Substitute 999.7 kg / m 3 for ρ , 1.307 × 10 − 3 kg / m ⋅ s for μ , 3 cm for D and 1.25 m / s for v in Equation (I)

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Chapter 8, Problem 164P

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The Reynolds number for the flow.

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Chapter 8, Problem 163P

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Water at 10°C flows in a 3-cm-diameter pipe at a velocity of 1.25 m/s. The Reynolds number for this flow is (a) 19,770 (b) 23,520 (c) 28,680 (d) 32,940 (e) 36,050

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The Reynolds number for the flow.

Solution Summary: The author explains the Reynolds number for the flow, which is 28683.05.

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