A pressurized tank contains water with some air above it. As shown on figure below. Multi-fluid manometer is used to determine the pressure at the air-water interface If hi= 0.7 m, hz= 0.4 m, h3= 0.55 m and ha 0.85 m. Also, specific gravity of water= 1 and specific gravity of crude oil = 1.8 and specific gravity of mercury = 12.5 and specific gravity of shale oil = %3D 2.5 Determine the absolute pressure at point 5 in Pascal unit. [Given: g= 9.81 m/s? and atmospheric pressure 101300 Pa] %3D %3D Mercury S.G. 12.5 Water S.G. 1 Crude oil S.G. 18 Shale oil SG. 25

A pressurized tank contains water with some air above it. As shown on figure below. Multi-fluid manometer is used to determine the pressure at the air-water interface If hi= 0.7 m, hz= 0.4 m, h3= 0.55 m and ha 0.85 m. Also, specific gravity of water= 1 and specific gravity of crude oil = 1.8 and specific gravity of mercury = 12.5 and specific gravity of shale oil = %3D 2.5 Determine the absolute pressure at point 5 in Pascal unit. [Given: g= 9.81 m/s? and atmospheric pressure 101300 Pa] %3D %3D Mercury S.G. 12.5 Water S.G. 1 Crude oil S.G. 18 Shale oil SG. 25

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

See similar textbooks

Related questions

Q: The mercury manometer shown in (Figure 1) reads h = 0.16 in. Take YHg = 867 lb/ft³, Yo = 57.4…

Q: 2. Both a gage and a manometer are attached to a gas tank to measure its pressure. If the reading on…

Q: Air hsca hais Sea Tresh water water Mercury Figure 1 Figure 1 shows a U-tube manometer that connects…

Q: Two pipes namely A and B are connected by a mercury manometer (SHg = 13.6). The fluid in both pipes…

A: SHg=13.6 To find h'

Q: The tank shown below has an orifice at the bottom. Use the Bernoulli equation to find the velocity…

A: According to given data The tank shown below has an orifice at the bottom. Use the Bernoulli…

Q: To measure the pressure inside a pipe, a manometer is connected to it as shown in the figure below.…

Q: 3Q. At normal atmospheric conditions, approximately what pressure in MPa must be applied to water to…

Q: fluids shown in the figure are at 20°C. If V₁ = 2.6 ft/s and losses are neglected, determine the…

A: This question is related to the Fluid Mechanics from Civil Engineering. Given Data - V1 = 2.6…

Q: Consider a double fluid manometer attached to an air pipe as shown in the figure. If the specific…

Q: A pressure gauge fitted on the side of a tank filled with liquid reads 50 kPa and 100 kPa at heights…

A: given- pressure PA=50 kPa at 5 mpressure PB=100 kPa at 10 mg=10 m/s2

Q: In the figure below, a fluid with a specific gravity of 0.77 is flowing. The mass flow rate is…

A: Given data, Specific gravity = 0.77 Mass flow rate = 18.5 kg /s Diameter of nozzle = 4.87 cm θ =…

Q: i) What is the gauge air pressure in the tank at Point 1?

Q: In figure 2.5, if the pressure of gas in bulb A is 50 cm Hg vacuum and Patm = 76 cm Hg, the height…

Q: The static and stagnation pressures of a fluid in a pipe are measured by a Piezometer and a Pitot…

Q: An organic solvent (SG=0.86) flows up in a pipe as shown in the figure. A manometer filled with…

Q: h C | d g = 9.807 m/s² = 32.17 ft/s² Ywater = 9790 N/m³ = 62.4 lb/ft³ d = 0.9 m h = 1.945 m a = 2.43…

A: d = 0.9 m R = d/2 = 0.45 m When the tank is accelerated with a = 2.43m/s2 then the water will make…

Q: Find the pressure in the pipe cortaining gasoline in kPa. Ir the given conditions, cir has a density…

Q: Water flows steadily from a nozzle into a large tank as shown in the figure below. The water then…

Q: 5.5 in. Open 1.4 in. Water Unknown fluid Open 4.9 in. 3.3 in.

Q: A tank contains gasoline and glycerine with open piezometer tubes attached as shown. The depths of…

Q: Determine thc moment of inertia about the x-axis for the arca shown in the Figure below.

A: To calculate the moment ofinertia the wholearea is divided into 3 parts.1.Rectangular…

Q: The cylinder shown in the figure extends 11ft into the paper. If the cylinder has the radius of 4…

Q: -Oil SG 0.79 P = 260 kPa gage Gasoline SG = 0.70 Pipe Air- 45 cm 50 cm 22 cm 10 cm Water Mercury SG…

Q: See the sketch below from our textbook (not to scale!), where the liquid in the open-top tank and…

Q: In figure 2.5, if the pressure of gas in bulb A is 50 cm Hg vacuum and Patm = 76 cm Hg, the height…

A: Given: Pressure head Atmospheric pressure To find: Height of column

Q: a manometer is a device that measures pressure. a common simple manometer consists of a U shaped…

Q: AIR; PRESSURE=1.0 PSI OIL SG=0.82 MERCURY- LIQUID X SG=4.0

A: Given Deflection from the gauge liquids= 800 mm Height of mercury= 450 mm Oil specific gravity =…

Q: The setup shown in the figure is being used to measure the energy loss across a valve. The velocity…

A: Given data:- Velocity of flow of the oil, v=1.2 m/s ρo=0.90ρm=13.54z1=0z2=1

Q: AIR P=150mmHG WATER FLUID X SG=3.69 FLUID Y SG-4.69 FLUID Z SG=5.69

Q: A pressurized tank contains water with some air above it. As shown on figure below. Multi-fluid…

A: Absolute pressure:- absolute pressure is the sum of gauge pressure and atmospheric pressure. Gauge…

Concept explainers

Storm Sewers and Detention

The storm drains system transports rainwater or stormwater and other runoff from roads, parking lots, and roof downpipes directly to nearby creeks, rivers, or the sea without any treatment.

Question

A pressurized tank contains water with some air above it. As shown on figure below.
Multi-fluid manometer is used to determine the pressure at the air-water interface
If hi= 0.7 m, hz= 0.4 m, h3= 0.55 m and ha 0.85 m. Also, specific gravity of water= 1 and specific
gravity of crude oil = 1.8 and specific gravity of mercury = 12.5 and specific gravity of shale oil =
%3D
2.5
Determine the absolute pressure at point 5 in Pascal unit.
[Given: g 9.81 m/s? and atmospheric pressure 101300 Pa]
%3D
Mercury
S.G. 12.5
Water
S.G. 1
Crude oil
S.G. 18
Shale oil
SG.
25

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, civil-engineering and related others by exploring similar questions and additional content below.

Similar questions

Refer to the flow shown in the figure. The velocity before the contraction is 1.51m/s. Given: h=0.20m D1=0.103m D2=0.057m Determine the height of the fluid in the manometer, H, in meters
A docs.google.com/forms/d/e/1FAlpQLSetk8UE/ PROBLEM 6: A gasoline line is connected to a pressure gage through a double-U manometer, as shown. If the reading of the pressure gage is 260 kPa, determine the gage pressure of the gasoline line. Assume the density of air to be 1.225 kg/m3 * Oil SG = 0.79 P gage = 260 kPa Gasoline SG= 0.70 Pipe Air 45 cm 50 cm 22 cm 10 cm Mercury SG= 13.6 Water Your answer
The pressure drop of water in a pipe is measured by a manometer using a liquid of density 2000 kg/m³. The difference in height of the liquid in the limbs is 10 cm. Then, the pressure drop is
Q03
The Venturi meter shown in the sketch below, contracts the flow down to one quarter of its original area. Cold air at 0 deg C flows in the pipe through the Venturi meter. The velocity of the air upstream of the Venturi meter is equal to 40 ft/s and the pressure at the same point is equal to 30 psia. What is the manometer reading if the fluid of the manometer is water with density 1000 kg/m3 . Assume that the air behaves as an ideal gas with molecular weight equal to Mw=29 kg/kmol and constant density evaluated at upstream conditions. Use Bernoulli's equation for your calculations. please respond asap!
1. The reading of an automobile fuel gage is proportional to the gage pressure at the bottom of the tank. The tank is A deep and is contaminated with B of water. The specific volume of gasoline is 0.00147076 m /kg and that of air is 0.0008313 m³/kg. Unit weight of water is 9790 N/m3 a. Determine the gage reading when the tank is full of gasoline b. How many cm of air remains at the top when the gage indicates full if the tank is A deep and is contaminated with B of water. c. Determine the pressure at the interface of the gasoline and water when the gage indicates full A = First name in inches Vent B = A/10 in inches Air h A Gasoline Pgage Water B
In figure 2.5, if the pressure of gas in bulb A is 50 cm Hg vacuum and Patm = 76 cm Hg, the height of column H is equal to Patm H 424 Hg:
How to solve this question . Step-by step solution needed with explanation. ( Fill in the Blank)
The figure below shows a manometer connected to a pipeline containing oil of specific gravity 0.8. If the specific gravity of mercury is 13.6, the pressure head of oil in terms of height of the water will be: Oil Mercury 0.75 m 0.25m
Q 1 A
The fluid 1 in a tank is pressurized by air, and the pressure is measured by a multifluid manometer as shown in figure below. Determine the gage pressure (in kPa) of air in the tank if hj=2.1m, h2=2.9m and h3=1.3m. Take the densities of fluid 1, fluid 2 and fluid 3 to be 1906 kg/m³, 1173kg/m³ and 27357kg/m³, respectively. fluid 2 Air hị fluid 1 h2 h3 fluid 3 2.
A tube of diameter 25 mm is used (as shown in the below figure) as a siphon to discharge water from a large open vessel into a drain at atmospheric pressure, (Given: Atmospheric pressure = 101.325 kPa) ignoring friction losses (3) (1) Determine (a)Velocity of flow through syphon (b)Discharge through the syphon (c)The minimum pressure inside the syphon (2) 160 mm 80 mm, 100 mm