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-43 Oil with p = 876 kg/m³ and μ = 0.24 kg/m-s is flo ng through a 1.5-cm-diameter pipe that discharges into t tmosphere at 88 kPa. The absolute pressure 15 m before t xit is measured to be 135 kPa. Determine the flow rate il through the pipe if the pipe is (a) horizontal, (b) inclin- ° upward from the horizontal, and (c) inclined 8° downwa rom the horizontal. Oil 135 kPa, FIGURE P8-43 -15 m- 1.5 cm

-43 Oil with p = 876 kg/m³ and μ = 0.24 kg/m-s is flo ng through a 1.5-cm-diameter pipe that discharges into t tmosphere at 88 kPa. The absolute pressure 15 m before t xit is measured to be 135 kPa. Determine the flow rate il through the pipe if the pipe is (a) horizontal, (b) inclin- ° upward from the horizontal, and (c) inclined 8° downwa rom the horizontal. Oil 135 kPa, FIGURE P8-43 -15 m- 1.5 cm

Structural Analysis
Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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8-43 Oil with p = 876 kg/m³ and μ = 0.24 kg/m-s is flow- ing through a 1.5-cm-diameter pipe that discharges into the atmosphere at 88 kPa. The absolute pressure 15 m before the exit is measured to be 135 kPa. Determine the flow rate of oil through the pipe if the pipe is (a) horizontal, (b) inclined 8° upward from the horizontal, and (c) inclined 8° downward from the horizontal. Oil 135 kPa, FIGURE P8-43 -15 m 1.5 cm
Transcribed Image Text:8-43 Oil with p = 876 kg/m³ and μ = 0.24 kg/m-s is flow- ing through a 1.5-cm-diameter pipe that discharges into the atmosphere at 88 kPa. The absolute pressure 15 m before the exit is measured to be 135 kPa. Determine the flow rate of oil through the pipe if the pipe is (a) horizontal, (b) inclined 8° upward from the horizontal, and (c) inclined 8° downward from the horizontal. Oil 135 kPa, FIGURE P8-43 -15 m 1.5 cm
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