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Water (y = 9800- flows steadily through the pipe shown in the figure below such that the pressures at sections (1) and (2) are 300 kPa and 120 kPa, respectively. Determine the amount of volumetric flowrate flowing in this pipe. Assume that the viscous effects are negligible. uith full nau

Water (y = 9800- flows steadily through the pipe shown in the figure below such that the pressures at sections (1) and (2) are 300 kPa and 120 kPa, respectively. Determine the amount of volumetric flowrate flowing in this pipe. Assume that the viscous effects are negligible. uith full nau

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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Please help answer the question shown in the photo. Fluid Mechanics is the topic. Explain clearly all your formulas and how you got the answers. Thank you! Any help is much appreciated :)

 

Water (y = 9800- flows steadily through the pipe shown in the figure below such that the pressures at sections (1) and (2) are 300 kPa and 120 kPa, respectively. Determine the amount of volumetric flowrate flowing in this pipe. Assume that the viscous effects are negligible. Show clearly the two Bernoulli points you use in the calculation. Begin with full Bernoulli equation and clearly indicate the term that can be zeroed, and all assumptions involved. Show all works and briefly explain all steps. Take the g = 9.8 m/s? P1 = 300 kPa D1 = 0.6 m P2 = 120 kPa 42 m D2 = 0.4 m
Transcribed Image Text:Water (y = 9800- flows steadily through the pipe shown in the figure below such that the pressures at sections (1) and (2) are 300 kPa and 120 kPa, respectively. Determine the amount of volumetric flowrate flowing in this pipe. Assume that the viscous effects are negligible. Show clearly the two Bernoulli points you use in the calculation. Begin with full Bernoulli equation and clearly indicate the term that can be zeroed, and all assumptions involved. Show all works and briefly explain all steps. Take the g = 9.8 m/s? P1 = 300 kPa D1 = 0.6 m P2 = 120 kPa 42 m D2 = 0.4 m
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