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Pipeline 1 Figure Q.1 shows two separate pipelines that con- vey steady flows of air and water, respectively. A manometer is used to measure the pressure dif- ference, Ap = PA - PB, between the points A and B (shown). Use the information provided in Figure Q.1 to find Ap when d = 300 mm and H = 385 mm. Air (p.) A• H Pa = 1.2 kg/m3 1000 kg/m3 If the pressures PA and ps are both increased by 10%, find the corresponding water-column height. H, one would observe in the manometer. Pw Water (Pw) Pipeline 2 Figure Q.1.

Pipeline 1 Figure Q.1 shows two separate pipelines that con- vey steady flows of air and water, respectively. A manometer is used to measure the pressure dif- ference, Ap = PA - PB, between the points A and B (shown). Use the information provided in Figure Q.1 to find Ap when d = 300 mm and H = 385 mm. Air (p.) A• H Pa = 1.2 kg/m3 1000 kg/m3 If the pressures PA and ps are both increased by 10%, find the corresponding water-column height. H, one would observe in the manometer. Pw Water (Pw) Pipeline 2 Figure Q.1.

Structural Analysis
Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
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Pipeline 1 Figure Q.1 shows two separate pipelines that con- vey steady flows of air and water, respectively. A manometer is used to measure the pressure dif- ference, Ap = PA – PB, between the points A and B (shown). Use the information provided in Figure Q.1 to find Ap when d = 300 mm and H = 385 mm. Air (pa) Pa = 1.2 kg/m3 Pw = 1000 kg/m³ If the pressures pA and pe are both increased by 10%, find the corresponding water-column height. H, one would observe in the manometer. B Water (Pw) Pipeline 2 Figure Q.1.
Transcribed Image Text:Pipeline 1 Figure Q.1 shows two separate pipelines that con- vey steady flows of air and water, respectively. A manometer is used to measure the pressure dif- ference, Ap = PA – PB, between the points A and B (shown). Use the information provided in Figure Q.1 to find Ap when d = 300 mm and H = 385 mm. Air (pa) Pa = 1.2 kg/m3 Pw = 1000 kg/m³ If the pressures pA and pe are both increased by 10%, find the corresponding water-column height. H, one would observe in the manometer. B Water (Pw) Pipeline 2 Figure Q.1.
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