Kindly give me both right solutions with clear calculations. SITUATION 1: In the figure, the 50-m duct is 60mm in diameter.12 mPgage=205 kPa50 m - 60 mm dia.kgm3p = 917u = 0.29 Pa – sec|a. Compute the flow rate if the fluid has a density of 917 kg/m^3and absolute viscosity of 0.29 Pa-sec, inm3b. Compute the Reynolds number of flow.

Given data, Length of duct = 50 m Diameter = 60 mm Density of flowing fluid = 917 kg /m³ u = 0.29…

SITUATION 1: In the figure, the 50-m duct is 60mm in diameter. 12 m Pgage=205 kPa 50 m - 60 mm dia. kg m3 p = 917 µ = 0.29 Pa – sec a. Compute the flow rate if the fluid has a density of 917 kg/m^3 m3 and absolute viscosity of 0.29 Pa-sec, in . b. Compute the Reynolds number of flow.

SITUATION 1: In the figure, the 50-m duct is 60mm in diameter. 12 m Pgage=205 kPa 50 m - 60 mm dia. kg m3 p = 917 µ = 0.29 Pa – sec a. Compute the flow rate if the fluid has a density of 917 kg/m^3 m3 and absolute viscosity of 0.29 Pa-sec, in . b. Compute the Reynolds number of flow.

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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Question

Kindly give me both right solutions with clear calculations.

SITUATION 1: In the figure, the 50-m duct is 60mm in diameter.
12 m
Pgage=205 kPa
50 m - 60 mm dia.
kg
m3
p = 917
u = 0.29 Pa – sec
|
a. Compute the flow rate if the fluid has a density of 917 kg/m^3
and absolute viscosity of 0.29 Pa-sec, in
m3
b. Compute the Reynolds number of flow.

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