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WebThe horizontal nozzle in Fig P3.49 has D1 = 12 in, D2 = 6 in, with p1 = 38 psia and V2 = 56 ft/s. For water at 20°C, find the force provided by the flange bolts to hold the nozzle fixed. P15 lb/in abs Open iea Wer. The horizontal … WebSimon Fraser University
WebNov 20, 2024 · The horizontal nozzle in Fig P3.49 has D1 = 12 in, D2 = 6 in, with p1 = 38 psia and V2 = 56 ft/s. For water at 20°C, find the force provided by the flange bolts to hold the … WebNov 20, 2024 · The horizontal nozzle in Fig P3.49 has D1 = 12 1 answer below » The horizontal nozzle in Fig P3.49 has D1 = 12 in, D2 = 6 in, with p1 = 38 psia and V2 = 56 ft/s. For water at 20°C, find the force provided by the flange bolts to hold the nozzle fixed. Nov 18 2024 08:12 AM 1 Approved Answer N R answered on November 20, 2024 5 Ratings ( 14 …
WebQ: The horizontal nozzle in Fig. P3.49 has D 1 = 12 in andD 2 = 6 in, with inlet pressure p 1 =38… A: Given data: Diameter at cross-section 1, D1 = 12 in Diameter at cross-section 2, D2 = 6 in. Velocity… WebThe horizontal nozzle in Fig. P 3.49 has D 1 = 12 in and D 2 = 6 in, with inlet pressure p 1 = 38 lbf/in 2 absolute and V 2 = 56 f t / s. For water at 20 ∘ C, compute the horizontal force …
Webbend of Fig. P3.115. The pressures are p1 30 lbf/in2 and p2 24 lbf/in2. Compute the torque T at point B necessary to keep the pipe from rotating. Solution: This is similar to Example 3.13, of the text. The volume flow Q 30 gal/min 0.0668 ft3/s, and 1.94 slug/ft3. Thus the mass flow Q 0.130 slug/s. The velocity in the pipe is Fig. P3.115 12 2 0. ...
WebWater at 20°C flows steadily at 40 kg/s through the nozzle in Fig P3.13, If D1 = 18 cm and D2 = 5 cm, compute the average velocity, in m/s, at (a) section 1 and (b) section 2. Water at 20°C flows steadily at 40 kg/s through the nozzle in Fig P3.13, If D1 = 18 cm and D2 = 5 cm, compute the average velocity, in m/s, at (a) section 1 and (b ... most attractive gorillaWebP3.49 The horizontal nozzle in Fig. P3.49 has D1 12 in, D2 6 in, with p1 38 psia and V2 56 ft/s. For water at 20°C, find the force provided by the flange bolts to hold the nozzle fixed. … mingos pearlandWebA rotating dishwasher arm delivers at $60^{\circ} \mathrm{C}$ to six nozzles, as in Fig. P3.163. The total flow rate is 3.0 gal/min. Each nozzle has a diameter of $\frac{3}{16}$ in. If the nozzle flows are equal and friction is neglected, estimate the steady rotation rate of … most attractive glassesWebNov 20, 2024 · The horizontal nozzle in Fig P3.49 has D1 = 12 in, D2 = 6 in, with p1 = 38 psia and V2 = 56 ft/s. For water at 20°C, find the force provided by the flange bolts to hold the nozzle fixed. Posted 4 months ago View Answer Q: mingo sportsman\\u0027s clubWebAns ρ π = = ≈ ← 500 N 3.49 The horizontal nozzle in Fig. P3.49 has D 1 = 12 in, D 2 = 6 in, with p 1 = 38 psia and V 2 = 56 ft/s. For water at 20°C, find the force provided by the flange bolts to hold the nozzle fixed. Fig. 3.49 Solution: For an open jet, P 2 = P a = 15 psia. Subtract P a everywhere so the only nonzero pressure is P 1 ... most attractive gymnastsWebP3.49 The horizontal nozzle in Fig. P3.49 has D1 = 12 in, D2 = 6 in, with p1 = 38 psia and V2 = 56 ft/s. For water at 20C, find the force provided by the flange bolts to hold the nozzle fixed. Solution: For an open jet, p2 = pa = 15 psia. Subtract pa everywhere so the only nonzero pressure is p1 = 38 15 = 23 psig. mingo the firewood markerWebFeb 8, 2024 · The horizontal nozzle in Fig. P3.49 has D 1 = 12 in and D 2 = 6 in, with inlet pressure p 1 =38 lbf/in 2 absolute and V 2 =56 ft/s. For water at 20°C, compute the … most attractive golfers