Water flows in a branched pipe as shown in Figure Q10 below. The water flows from Pipe A with a 185 mm diameter dividing Into two smaller pipelines, Pipe D with a 95 mm diameter and Pipe B with an 83 mm diameter. The velocity in the 83 mm pipe (B) is 0.7 m/s and in the 95 mm pipe (D) is 0.55 m/s. Calculate the velocity in m/s and the mass flowrate in kg/s in the 185 mm pipe (A) If the density of the water is 1000 kg/m³. Enter your answers to three significant figures. Velocity: Mass Flow Rate: m/s. kg s'¹,

Water flows in a branched pipe as shown in Figure Q10 below. The water flows from Pipe A with a 185 mm diameter dividing Into two smaller pipelines, Pipe D with a 95 mm diameter and Pipe B with an 83 mm diameter. The velocity in the 83 mm pipe (B) is 0.7 m/s and in the 95 mm pipe (D) is 0.55 m/s. Calculate the velocity in m/s and the mass flowrate in kg/s in the 185 mm pipe (A) If the density of the water is 1000 kg/m³. Enter your answers to three significant figures. Velocity: Mass Flow Rate: m/s. kg s'¹,

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

B. An ideal incompressible fluid flows at 0.4 m/s throug a square pipe with a side of 7.0 cm. The pipe narrowst a cylindrical pipe with a radius of 30 mm. assume steac flow throughout the system. What is the speed of fluid through the narrow section of the pipe?
A large diameter closed top tank is filled with a depth of 3 meters of a fluid (density 1200 kg/m3). A small pipe leading from the bottom of the tank must carry the fluid some height above the fluid level in the tank. a) If a pressure of 2.5 Atmospheres is maintained in the space above the fill line in the tank how high above the fill line can the pipe carry the fluid and still provide an exit speed of 2 m/sec for the fluid out of the pipe? (the pressure at the exhaust end of the pipe is 1 atmosphere or about 1 x 105 pascal) If the pipe diameter is 2 cm, what will be the volume rate of flow (m3 /sec)
A fluid passes through the tube with a mass flow rate of 1.50 kg/s. If the tube's diameter narrows to half its original diameter, then its mass flow rate will be, 0.375 kg/s 0.75 kg/s 1.06 kg/s 1.50 kg/s 2.12 kg/s 3.0 kg/s 6.0 kg/s
Water flows in the system shown below. The flow exits the pipe at a speed of 4.0 m/s.(a). What is the water pressure when it exits the pipe?(b). What is the height of the column of water?
4.0 mm 16. Consider the following diagram. (let air be an ideal, incompressible fluid) 2.0 cm 1200 cm'/s a. If the air is found to have a flow rate of 1200 cm3/s as it leaves the 4.00 mm diameter pipe, what is the velocity of the air in both segments of the pipe? b. If the density of air is 1.28 kg/m3 and the end of the pipe on the right opens up to the atmosphere, what is the pressure of the pipe at the 2.00 cm diameter section? C. If the fluid in the bottom of the U-tube is mercury with a density of 13,600 kg/m3 what is the difference between the surface levels of both sides of the tube, marked as h in the diagram?
help with d-f
Oil (p = 920 kg/m³) is flowing through a pipeline at a speed of 1.88 m/s. If the diameter of the pipe is 0.16 m, what is the %3D mass flow rate? kg/s
A hose can fill a 2.3 L container and 40 seconds. What is the velocity in m/s of the water as it leaves the 1.6 cm diameter nozzle?