Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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A siphon is a convenient device for removing
liquids from containers. To establish the flow, the tube must be initially
filled with fluid. Let the fluid have density r, and let the atmospheric
pressure be patm. Assume that the cross-sectional area of the tube is the
same at all points along it. (a) If the lower end of the siphon is at a
distance h below the surface of the liquid in the container, what is the
speed of the fluid as it flows out the lower end of the siphon? (Assume
that the container has a very large diameter, and ignore any effects of
viscosity.) (b) A curious feature of a siphon is that the fluid initially
flows “uphill.” What is the greatest h
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- Air having density p = 0.981 kg/m³ is flowing in a wind tunnel. A differential manometer connected to a pitot tube is used to measure the dynamic pressure of the air at the pitot tube location. The liquid in the manometer is oil having a specific gravity of 0.826, and the manometer reading is 76.2 mm. The wind tunnel is on the CU campus in Denver where g = 9.796 m/s?. a) Find the dynamic pressure of the air (answer: 615.8 Pa). b) Find the speed of the air at the pitot tube location (answer: 35.4 m/s). Air p = 0.981 kg/m³ h = 76.2 mm Oil, SG = 0.826arrow_forwardIn a container of diameter Φ (see image), a tube of diameter ε (much smaller than the diameter of the container) is connected at a height d. The water level in the container is h. Water flows at a constant speed in the tube. The density of the fluid is ρ. If the container is open to the air, calculate the pressure at the connection. Conceptual question: In the second figure of the image, three pressures are represented. Are these pressures constant along the height they describe?arrow_forwardFull part of question barrow_forward
- Find the force required to pull a shaft with diameter D, steadily into a sleeve with diameter D, and length L at a velocity of V. The clearance between the shaft and the sleeve is filled with an oil of viscosity μ.arrow_forwardFrom the question he has wrote the given infomation. i dont understand how he has got that from the questionarrow_forwardA torque is applied to rotate a cylindrical shaft (diameter D 1 , length L) at a constant angularspeed ω, inside a co-axial, stationary cylinder of the same length and diameter D 2. The gapbetween the bottom surface of the shaft and that of the stationary cylinder is h.(a) Develop a general expression of the torque in terms of the geometric dimensions andthe viscosity μ of an oil filling the gaps between the shaft and the stationary cylinder.Assume linear velocity profiles in all the gaps.(b) Determine the numerical value of the torque in the case of an oil of viscosity of 0.1Pa.s. [D 1=5cm, D 2=5.2cm, L=10cm, ω=50rpm, h=1mm]arrow_forward
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