After a particularly intense test in Engineering, Toby sits down to enjoy a nice cool very large bucketof lemonade (density =500 kg/m). He decides to impress his peers by snorting the lemonade through a longhose. The hose end is, effectively, at the bottom of the bucket, the height of liquid in the bucket is 0.5 m, thebucket bottom is 1 meter off of the ground, and Toby's nose is 5 meters off of the ground. The hose diameter is6 mm, its length is 20 meters, and the frictional head loss is 0.25 m per meter of hose length. He wants to snortat 0.0002 m3/s. Assume that the flow is turbulent so that you don't have to worry about a, the momentumcorrection factor. What is the pressure (in kPa), below atmospheric, that his lungs must produce in order tosnort at this rate?

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Answered: After a particularly intense test in…

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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You are designing a hydraulic lift for an automobile garage. It will consist of two oil-filled cylindrical pipes of different diameters. A worker pushes down on a piston at one end (d = 25cm), raising the car on a platform at the other end (d=?). To handle a full range of jobs, you must be able to lift cars up to 3000 kg, plus the 700 kg platform on which they are parked. To avoid injury to your workers, the maximum amount of force a worker should need to exert is 100 N. What should be the diameter of the pipe under the platform? If the worker pushes down with a stroke 50 cm long, by how much will he raise the car at the other end?
The gage pressure in a pipe is measured by a manometer containing mercury (? =13,600 kg/m³). The top of the mercury is open to the atmosphere and the atmosphericpressure is 100 kPa. If the mercury column height is 24 cm, calculate the gagepressure in the pipe.
A horizontal pipe has a sudden expansion from diameter 8 cm to diameter 16 cm as shown in Figure Q2(b). The velocity and pressure of the water in the inlet of sudden expansion is 10 m/s and 410 kPa respectively. Based on Table 2 and setting given to you, determine the pressure at the outlet of the sudden expansion.
Capillary rise of 3 mm is noticed when a glass tube is immersed in a container containing oil of specific gravity 0.64. The contact angle of oil is 190 and surface tension of the oil at 200C in contact with air is 0.088175 N/m. Find the following: (i) Mass density of the oil in kg/m3 (ii) Capillary rise of oil in the glass tube in m of oil
Two ends of an U-tube manometer which contains mercury, is connected between two pipes (A & B) that carries oil of specific gravities 1.35 & 1.4 respectively. The center of the pipe B (right limb) is 12 cm above the pipe A (left limb). The mercury level difference in the Left limb is 3.1 cm, and the height of fluid in the left limb is 6cm, find the pressure difference between these two pipes in Pascal. Draw the diagram.The difference of pressure between the pipes A & B in (Pascal) =
Two ends of an U-tube manometer which contains mercury, is connected between two pipes (A & B) that carries oil of specific gravities 1.05 & 1 respectively. The center of the pipe B (right limb) is 14 cm above the pipe A (left limb). The mercury level difference in the Left limb is 4.2 cm, and the height of fluid in the left limb is 6.1cm, find the pressure difference between these two pipes in Pascal. Draw the diagram.
Consider the manometer tube shown in below Figure 1. It is filled with three differentincompressible fluids. The closed end of the tube is connected to a reservoir with aconstant pressure. For this configuration, calculate i) the pressure in the reservoir in kPa, ii) the pressure in the reservoir as gage pressure in kPa, iii) the equivalent height of water, and iv) the equivalent height of mercury.
P2.44 Water flows downward in a pipe at 45°, as shown in Fig. P2.44. The mercury manometer reads a 6-in height. The pressure drop p2 – pi is partly due to friction and partly due to gravity. Determine the total pressure drop and also the part due to friction only. Which part does the manometer read? Why? 45 Flow Water 6 in Mercury Fig. P2.44
A wire ring of radius 6 cm is rested flat on the surface of a liquid and then slowly raised. The pull required is 0.06 N more before the film breaks than it is after. What is the surface tension of the liquid? Neglect the thickness of the ring.
Consider two tanks filled with water. The first tank is 8 m high and is stationary, while the second tank is 2 m high and is moving upward with an acceleration of 5 m/s^2. Calculate the pressure of each tank at the bottom.
The pressure on the suction side of a pump in a water line is 25 kPa (abs). What temperature should the water be to prevent cavitation at sea level? Is this a maximum or a minimum temperature?

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