"b" is descriptive. You have to concisely explain how you got the result of the letter "a" in 10 steps or more. Basically just put in simple phrases the steps done to achieve the answers to letter "a"

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Moody Diagram 0.1 0.09 0.08 Transition Region 0.05 0.04 0.07 0.06 0.03 0.05 0.02 0.015 0.04 0.01 IIII |- -I- - 444 0.03 0.005 Laminar Flow 0.002 64 I IIII Re 0.02 0.001 Material E (mm) 5x10 0.015 2x10 Concrete, coarse 0.25 0.025 Concrete, new smooth Drawn tubing Glass,Plastic,Perspex 0.0025 0.0025 Complete turbulence 10-4 5x10-5 Iron, cast 0.15 0.01 Sewers,old Steel, mortar lined Steel, rusted Steel, structural or forged Water mains, old 3.0 0.1 0.5 10-5 0.025 Friction Factor 2d 5x10-6 1.0 Smooth Pipe 10-6 3 8. 10 4. 10" 10° 10' 10° pVd 10° Reynolds Number, Re Friction Factor Relative Pipe Roughness

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Analyze the internal, permanent, and turbulent flow of a fluid at 25 ° C, with properties (1.11x10-7 m²/s; 1000 kg/m³) through a 3 km stretch of iron pipe with a roughness of 0.1mm and internal diameter 0.3 m. If the head loss through the pipe section is 4.6 m: a) From the reading on the Moody diagram, calculate the volumetric flow of liquid and the flow rate of the fluid; (Record on the Moody diagram the readings carried out to arrive at your answers) b) Describe in a flowchart, like the one illustrated in the figure below, the problem-solving steps THAT HAVE BEEN ADOPTED TO ACHIEVE YOUR ANSWERS. The flowchart is simply a 10-step model. Identify what it is carried out in each step of your flowchart, in the table beside (if necessary, you can add phases). The first and last stages are standardized and are reserved for the actions of "beginning and end". Step Description Beginning Step 1 3 4 5 6. ... ... 10 Last Step End