A smooth square cylinder is put in 15 °C flowing water. The flow direction is perpendicular to the long axis of the cylinder (parallel to the square section). The edge length of the square is s=2.0m. The long axis length is Z=5.0m. The flow velocity is v=0.046 m/s. The density of water is p=1000kg/m³. The dynamic viscosity is n=1.15×10-³kg/m-s. (3) Calculate the drag force FD_ _N (2 decimal places) Flow Drag coefficient, C 10 8 6 4 2 1 8 2 10-1 102 2 Square cylinder 4 68 10³ Cylinder 2 Sphere 2 4 68 104 Reynolds number, N 4.68 105 (b) CD vs. Ng for higher values of Ng R 2 4 68 8 6 4 2 8 6 4 2 10 1 10-1 106

A smooth square cylinder is put in 15 °C  flowing water. The flow direction is perpendicular to the long axis of the cylinder (parallel to the square section). The edge length of the square is s=2.0m. The long axis length is L=5.0m.  The flow velocity is v=0.046 m/s.  The density of water is ρ=1000kg/m³.  T he dynamic viscosity is η=1.15×10^-3kg/m·s.

(3) Calculate the drag force F_D_________N (2 decimal places)

 

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A smooth square cylinder is put in 15 °C flowing water. The flow direction is perpendicular to the long axis of the cylinder (parallel to the square section). The edge length of the square is s=2.0m. The long axis length is L=5.0m. The flow velocity is v=0.046 m/s. The density of water is p=1000kg/m³. The dynamic viscosity is n=1.15×10-³kg/m-s. (3) Calculate the drag force FD_ N (2 decimal places) Flow Drag coefficient, CD 10 8 6 4 2 100⁰€ 8 6 4 2 10-1 102 Square cylinder 2 4 68 10³ 2 4 68 104 Cylinder 2 Sphere 4 68 105 Reynolds number, Ng (b) CD vs. No for higher values of Ng 2 4 68 8 6 4 10 2 8 2 1 6 4 10-1 106