Problem 4. Water flows from a very large tank through a pipe as shown. The dark liquid in the manometer ismercury. The water at the top of the tank, the water at the exit, and the mercury at the top of the manometer legare all exposed to air at atmospheric pressure. Estimate (a) the pressure drop in the pipe, (b) the water velocity inthe pipe, and (c) the volumetric flowrate. For your analysis, assume inviscid flow along a streamline from the topinterface to a location at the center of the pipe just above the manometer tube. Note that based on themanometer reading, there is viscous flow in the pipe between this point and the exit.largetank ofwater4.0 m5.0 cmpipeflow75 cm15 cm

Answered: Problem 4. Water flows from a very…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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hi please solve this question. please make sure answer is correct
The pipe (0-1-2) shown in the …gure is angled upward at 30 and is …lled with water. The distance from (1) to (2) (along the pipe) is 1.2 m. The manometer liquid is mercury. For part (a), the pipe is capped at location (0) so that the water is stationary in the pipe. What would be the value of h in this case? For part (b), the pipe shown is just a section of a much longer pipe, and water is ‡owing upwards from (0) to (1) to (2). If the pressure loss due to friction from location (1) to location(2) is 20 kPa, what is the value of h in this case?
Please indicate the given, the required and the illustration. An open cylindrical vessel, 3m high and 1.5m in diameter is filled with water to a depth 2.5m. In its side is a 50mm circular orifice C = 0.60 placed 300mm above the bottom of the vessel. The vessel is rotated about its own axis at 60rpm and the water allowed to escape through the orifice for a period of 3 minutes. Determine the volume (V) of water allowed to escape through the orifice in cubic meters. Answer is 1.440
(1) A simple, vertical U-tube manometer is used to measure the differencebetween two gas pressures.Write down an equation for the pressure difference in terms of the difference inthe level of the fluid in the manometer. Describe briefly, with the help ofdiagrams, two modifications to the basic design which offer greater sensitivity tosmall pressure differences. Give equations for their use. ii) An extractor fan draws air from a room and delivers it to the surroundingsthrough a 5m long circular duct of diameter 0.1m. The friction coefficientfor the duct flow is 0.002. The fan characteristic, relating its total pressurerise, ∆P (Nm-2) to the volume flow rate is: ∆P = 103−7x104Q 2. What is therate of flow through the duct?You may assume that the room and surroundings are both at atmosphericpressure; state and justify any other assumptions you make.
The system in Fig. is used to calculate the pressure p 1in the tank by measuring the 15-cm height of the liquid in the1-mm-diameter tube. The fl uid is at 60 ° C. Calculate thetrue fluid height in the tube and the percentage error due tocapillarity if the fluid is ( a ) water or ( b ) mercury.
Fluid is flowing through a pipe with a flow nozzle. Determine the pressure difference between point A and point B. Express the answer in the variables from the diagram. (4) (5) T(1). (2) (3) Flow Flow nozzle
Solve the problem fast in 20-25minutes. Thanks
Assume an ideal fluid with mass density of 900kg/cu.m. The pressure and velocity at section 1 are 100kPa and 10 m/s, respectively. The velocity at section 2is 20 m/s. (a) Determine the reading on the manometer.(b) If the downstream piezometer was replaced with aPitot tube, what would be the manometer reading?Comment on the practicality of these arrangements.
A venturi meter with a throat diameter of 6 cm is fitted in a horizontal pipeline of 12 cm diameter with oil of specific gravity 0.88 flowing from left to the right. The difference in level in the two limbs of a mercury manometer connected to the tapping points read 12 cm and the connecting pipes are filled with the same oil. A. If two pressure gauges are fitted at tapping points, one at the throat and the other in the inlet. Determine the difference between the 2 gage pressure readings in kPa B. Determine the flow in m^3/s neglecting head losses
the maximum value of h ?
Problem #1 Freshwater and seawater flowing in parallel horizontal pipelines are connected to each other by a double U-tube manometer, as shown in Fig. Determine the pressure difference between the two pipelines. Take the density of seawater at that location to be p=1035 kg/m³. Can the air column be ignored in the analysis? [hw = 50 cm, hug = 10 cm, hsea = 30 cm] Fresh water Air hw hair hug Mercury T hsca Sea water
Solve fast..

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