Consider a horizontal 20 mm diameter pipe section of length 300 mm transporting SAE 10W oil at 20°C. The volumetric flow rate is 0.001 m³/s. Assuming fully developed laminar flow, evaluate: a. mercury manometer reading, h [mm] (assume PHg = 13,550 kg/m³) b. shear stress at the wall [N/m²] c. verify that the flow is laminar. 300 mm 20 mm .B
Consider a horizontal 20 mm diameter pipe section of length 300 mm transporting SAE 10W oil at 20°C. The volumetric flow rate is 0.001 m³/s. Assuming fully developed laminar flow, evaluate: a. mercury manometer reading, h [mm] (assume PHg = 13,550 kg/m³) b. shear stress at the wall [N/m²] c. verify that the flow is laminar. 300 mm 20 mm .B
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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help - please follow the format given
![Consider a horizontal 20 mm diameter pipe section of length 300 mm transporting SAE 10W oil at
20°C. The volumetric flow rate is 0.001 m³/s. Assuming fully developed laminar flow, evaluate:
a. mercury manometer reading, h [mm] (assume píg = 13,550 kg/m³)
b. shear stress at the wall [N/m²]
c. verify that the flow is laminar.
300 mm
20 mm
.B](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F44d9cc1b-3403-4c35-81c8-9fe2df415112%2Fe2a070b8-fd39-443f-9256-fc4fa828ca06%2F88tnl0f_processed.png&w=3840&q=75)
Transcribed Image Text:Consider a horizontal 20 mm diameter pipe section of length 300 mm transporting SAE 10W oil at
20°C. The volumetric flow rate is 0.001 m³/s. Assuming fully developed laminar flow, evaluate:
a. mercury manometer reading, h [mm] (assume píg = 13,550 kg/m³)
b. shear stress at the wall [N/m²]
c. verify that the flow is laminar.
300 mm
20 mm
.B

Transcribed Image Text:2. The following is the standard format for organizing and presenting the solution to a fluid mechanics
problem. Use this (or similar clear, organized, logical procedure) in your homework.
(a) Problem Description - include the following:
• Given information and basic description.
• Schematic of problem/geometry. Clearly indicate system/control volume considered,
coordinate system, any other relevant information.
• What is to be determined.
(b) List of Assumptions - list all appropriate simplifying assumptions.
(c) Basic Equations - general form of relevant fundamental laws, equations, definitions.
(d) Analysis
clearly describe procedure to apply/manipulate/reduce equations to give solution.
• reference all tables and charts needed for physical properties and other data.
• substitute numerical values into final equations. be sure to specify all units
and unit conversions.
• keep significant figures consistent with given data.
• check solution - correct sign, reasonable numerical values?
• clearly indicate final answer(s) with underline or box.
(e) Discussion of Solution - as needed (what you learned, key aspects of solution, etc).
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