Answer the Following Objective Questions. You should use Equations,Relations, and Sketches, Whenever You Need.1. What do we mean by "Static Fluids“? And what are the types of stresses exist inthis type of fluids?2. How does the pressure vary in static fluid? Explain.3. Write down the basic hydrostatic equation, and integrate it for incompressiblefluids.4. Define absolute and gage pressures, and write down the mathematical relationbetween them? Explain5. What types of "Atmospheric Pressure patm" are there? And how can we measurethe atmospheric pressure? Explain6. How can we measure the gage pressure? Explain7. Define "Manometers" and explain the principle of their operation.8. How can we measure very small pressures and pressure differences? Explain.9. Calculate the absolute pressure (in Pa and in meters of Mercury for which S =13.6) corresponding to (20 mH,0) gage pressure. Take (patm)loc = 100 kPa).10. If the barometer reads (760 mm Hg), what is the absolute pressure (in Pascal)equivalent to (20 kPa vacuum)?

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Answer the Following Objective Questions. You should use Equations, Relations, and Sketches, Whenever You Need. 1. What do we mean by "Static Fluids“? And what are the types of stresses exist in this type of fluids? 2. How does the pressure vary in static fluid? Explain. 3. Write down the basic hydrostatic equation, and integrate it for incompressible fluids.

Answer the Following Objective Questions. You should use Equations, Relations, and Sketches, Whenever You Need. 1. What do we mean by "Static Fluids“? And what are the types of stresses exist in this type of fluids? 2. How does the pressure vary in static fluid? Explain. 3. Write down the basic hydrostatic equation, and integrate it for incompressible fluids.

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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Subject : Fluid mechanics Read the question carefully and give me right solution according to the question
Engineering Fluid Mechanics. Answers should be same as the other picture
In Figure below all fluids are at 20 deg.C. Determine pressure at point B, if pressure at point A is 150 kPa and weight of air is neglected. Use the table below for the densities at 20 deg.C. Liquid p. kg/m Kerosene - Ammonia 608 Benzene 881 Air Carbon tetrachloride 1590 Benzene Ethanol 789 Ethylene glycol Freon 12 B 1117 40 cm 9 cm 1327 20 cm Gasoline 680 14 cm Glycerin Kerosene 1260 t8 cm 804 Mercury- Water Mercury Methanol 13,550 791 SAE 10W oil 870 SAE 10W30 oil 876 SAE 30W oil 891 SAE 50W oil 902 Water 998 Seawater (30%e) 1025
Directions: Solve the following problems completely, and make a detailed solution. Any incompletesolution arriving at such answers will never be considered. A barrel contains a 15 cm layer of oil of density 5.88 kN/m3 floating on water that is 30 cm deep. What is the gauge pressure in mmHg at the oil-water interface?
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1. The deformation of the fluid will continue as long as the 2. When designing gates, vessels, dams or other bodies that are submerged in a liquid, it is important not only to estimate the - 3. The surface tension is the tensile force per -- in any direction along the surface the surface tension. 4. The value of - specifies whether the fluid can be assumed compressible or incompressible. 5. Archimedes' principle indicates- 6. A truck is filled with gasoline. If the container (tank) on the truck undergoes a - - is applied. - but also to specify its location on the body. then the liquid surface will begin to rotate clockwise about the center of the container and will eventually maintain a fixed tilted position.
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