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Example 1: Water flows at a velocity of 1 m/s over a plane surface 0.6 m wide and 1 m long. Calculate the total drag force acting on the surface if the transition from streamline to turbulent flow in the boundary layer occurs when the Reynolds group Rexc = 105, Solution: حفظ Us=1m/s W= 0.6m, L= Im RC-10 R 60037 R R [0·646Rx-0037R Rex-puix A total Drag friction.R A=WxL 06x10.6m² "Tu by xSul's xlrea 2)Total ρυξ فقط 1 0.037 Rex Rex 1000 ← pxus Xx → حفظ لا يعطى -0.2 + -[0.646Rex-0.037 Rexco.³] . (41) ๆ long 10s 103 × 1 × 1< Rex = 103 =106 س الزوجه الماء 10-3 R 1 2) Total pus = 0.037 × (106)-0.2 + 106 [0.646(105) 0.5-0.037(105) 0.8] R Total = 0.00214 pus R Total drag force = Total x pux Area DR pu تتخلصي من المقام رقص 8 = 0.00214 × 10³ × (1)² × 1 × 0.6 = 1.28 N Total friction Total drag force 8=2 fus طول والعرض X- A=WxL' June = 0·6×1 =0.6m² ند الرفع تقرب الاسس الاكبر Pus→ 10x (1)² = 1000 total Dra R ·x Pus x Avea Pu Example 2: Calculate the thickness of the boundary layer at a distance of 150 mm from the leading edge of a surface over which blood, of viscosity 0.05 N s/m² and density 1000 kg/m³, flows with a velocity of 0.3 m/s. What is the displacement thickness of the boundary layer? Solution: Us Rex-Pusx M exus xx 103 x 0.3 × 150 × 10-3 Rex = Laminar = 900 5. μ 0.05 hannar 5-4.64x Rex 0=0.375 × 0 -0.5 (22) Thickness of Boundary 8 = 4.64xRex -0.5 -0.5 S = 4.64 × 150 × 10¯³ × (900)¯0. = 0.0232 m = 23.2 mm 0.15 Displacement thickness 8* = 0.375 x 8 = 0.375 x 23.2 = 8.7 mm Displacement Thickness of Boundary layer