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3. The total discharge from A to B in figure is 14 cfs. Determine the discharge in each pipe if the pipes used are cast iron (f=0.018). L = 6000 ft D = 18 in f = 0.018 L = 2000 ft D = 12 in f = 0.018 B

3. The total discharge from A to B in figure is 14 cfs. Determine the discharge in each pipe if the pipes used are cast iron (f=0.018). L = 6000 ft D = 18 in f = 0.018 L = 2000 ft D = 12 in f = 0.018 B

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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**Problem Statement:** 3. The total discharge from A to B in the figure is 14 cfs. Determine the discharge in each pipe if the pipes used are cast iron (\(f = 0.018\)). **Diagram Explanation:** The diagram shows a pipeline system with two sections. The flow travels from point A to point B through two different paths: 1. **Upper Path:** - Length (\(L\)) = 6000 ft - Diameter (\(D\)) = 18 in - Friction factor (\(f\)) = 0.018 2. **Lower Path:** - Length (\(L\)) = 2000 ft - Diameter (\(D\)) = 12 in - Friction factor (\(f\)) = 0.018 Each path has different dimensions but shares the same friction factor. The total discharge from A to B is given as 14 cubic feet per second (cfs). The goal is to determine the individual discharges in each pipeline path.
Transcribed Image Text:**Problem Statement:** 3. The total discharge from A to B in the figure is 14 cfs. Determine the discharge in each pipe if the pipes used are cast iron (\(f = 0.018\)). **Diagram Explanation:** The diagram shows a pipeline system with two sections. The flow travels from point A to point B through two different paths: 1. **Upper Path:** - Length (\(L\)) = 6000 ft - Diameter (\(D\)) = 18 in - Friction factor (\(f\)) = 0.018 2. **Lower Path:** - Length (\(L\)) = 2000 ft - Diameter (\(D\)) = 12 in - Friction factor (\(f\)) = 0.018 Each path has different dimensions but shares the same friction factor. The total discharge from A to B is given as 14 cubic feet per second (cfs). The goal is to determine the individual discharges in each pipeline path.
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