The Reynolds number can be calculated using the following equation: 4Q TD² ● Q is the volumetric flow rate of fluid. p and u are the density and viscosity of the fluid consequently. D is the diameter of the pipe. ● ● Re ● pDv μ Write a MATLAB function to calculate the Reynolds number for a given fluid type and a volumetric flowrate in a feasible range. Fluid Water Ethyl Alcohol Methyl Alcohol The feasibility of constraint of 0.05 Q0.5 p (kg/m³) 1000 800 760 P 0.0015 0.0018 0.0023 the volumetric flowrate (Q) should be checked with the A plot of the Re as a function of number Diameter of the pipe between 0.01 and 0.1 m. • Display the Re number for the end value of the D using "fprintf" function. Check your function carefully, it should consider the infeasible fluid selection.

graphic with MATLAB. 

 

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QUESTION-4 The Reynolds number can be calculated using the following equation: 4Q TD² ● ● Q is the volumetric flow rate of fluid. p and u are the density and viscosity of the fluid consequently. D is the diameter of the pipe. ● ● Re ● pDv μ V Write a MATLAB function to calculate the Reynolds number for a given fluid type and a volumetric flowrate in a feasible range. Fluid Water Ethyl Alcohol Methyl Alcohol The feasibility of constraint of 0.05 Q≤ 0.5 p (kg/m³) 1000 800 760 P 0.0015 0.0018 0.0023 the volumetric flowrate (Q) should be checked with the A plot of the Re as a function of number Diameter of the pipe between 0.01 and 0.1 m. Display the Re number for the end value of the D using "fprintf" function, Check your function carefully, it should consider the infeasible fluid selection. 15 Fagus GOL