Two circular pipes are located around a small water container as shown in the figure. Q = 0.001 m²/s Dz = 10 cm D = 5 cm Water Vị = 0.5 m/s The flow entering the container in a 5 cm diameter pipe has 0.5 m/s uniform velocity. Water is supplied steadily from the top surface of the container with a volume flow rate 0.001 m³/s. Flow exits the container in a 10 cm diameter pipe with a non-uniform velocity distribution, which is: D, , where r, V =V_ max 2 Assume a steady incompressible flow where water level in the container remains the same. a) Determine the water volume flow rate leaving the container b) Determine the maximum velocity (Vmax)

please i want the answer of these 2 quetions

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External Problem 1: Conservation of mass Two circular pipes are located around a small water container as shown in the figure. Q= 0.001 m³ls D; = 10 cm Di = 5 cm Water Vi = 0.5 m/s The flow entering the container in a 5 cm diameter pipe has 0.5 m/s uniform velocity. Water is supplied steadily from the top surface of the container with a volume flow rate 0.001 m³/s. Flow exits the container in a 10 cm diameter pipe with a non-uniform velocity distribution, which is: D, where r, 2 V =V max %3D Assume a steady incompressible flow where water level in the container remains the same. a) Determine the water volume flow rate leaving the container b) Determine the maximum velocity (Vmax) External Problem 2: Linear Momentum and Bernoulli Equations The double nozzle in the figure below discharges water at A and B into the atmosphere at a rate of 0.5 m³/s. The nozzle is lying in a horizontal plane. Assume steady and frictionless flow and the water speed in each jet (A and B) to be the same. Jet A is 10 cm in diameter, jet B is 12 cm in diameter, and the pipe inlet is 30 cm in diameter. (p = 1000 kg/m³). a) Applying Bernoulli's equation between the inlet section and any of the outlet sections, show that the pressure at section 1 is 315 612 Pa gage; b) What force acting through the flange bolt is required to hold the nozzle in place? В A 30° Flange