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. Module No. 4Calibration of Volume TankWeight of tank = 17.95 kgArea of tank = 155 inch?Density of Water used = 1000 kg/mVolume Tank calibration dataWaterHeight,Inches(note: convertto m)17.75CalculatedActualWeight ofWater + Tank,kgWeight ofWater,kgVolume ofVolume ofPercent ErrorTrialWater,m3Water,m3162.615.87558.05314.12553.6512.37549.15510.62544.70940.40735.7075.2531.20102.6.CO

Name: Assume an ideal fluid with mass density of 900kg/cu.m. The pressure an
Uploaded: 2024-03-20T06:56:55.000Z
Channel: Bartleby
Description: 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 rep

Since you have posted multiple questions, I will answer the first question as per Bartleby…

Engineering

Mechanical Engineering

Assume an ideal fluid with mass density of 900 kg/cu.m. The pressure and velocity at section 1 are 100 kPa and 10 m/s, respectively. The velocity at section 2 is 20 m/s. (a) Determine the reading on the manometer. (b) If the downstream piezometer was replaced with a Pitot tube, what would be the manometer reading? Comment on the practicality of these arrangements

Assume an ideal fluid with mass density of 900 kg/cu.m. The pressure and velocity at section 1 are 100 kPa and 10 m/s, respectively. The velocity at section 2 is 20 m/s. (a) Determine the reading on the manometer. (b) If the downstream piezometer was replaced with a Pitot tube, what would be the manometer reading? Comment on the practicality of these arrangements

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)

8th Edition

ISBN:9781305387102

Author:Kreith, Frank; Manglik, Raj M.

Publisher:Kreith, Frank; Manglik, Raj M.

Chapter5: Analysis Of Convection Heat Transfer

Section: Chapter Questions

Problem 5.5P: Evaluate the dimensionless groups hcD/k,UD/, and cp/k for water, n-butyl alcohol, mercury, hydrogen,...

See similar textbooks

Similar questions

A 300 mm by 150 mm Venturi meter (c = 0.985) carries 0.0566 m /s of water with a differential gage reading of 0.634 m. What is the specific gravity of the gage liquid?
Rover weight capacity 35 kilo grams (payload)Rover measurements:Wheel distance - 14.5 inches and 8.5 inchesRover platform size (width & length) 14.4 inches x 10.4 inchesHeight- 15.8 inches Water tank selectionMore or less 25 liters*For tank selection we need to justify the size with the center of gravity, proving that is themaximum dimension or liters of the tank because the center of gravity will be higher makingthe rover prone to topplingPump selection*Our sprayer design has two nozzles which splits using a tee splitter, we need to find thesize of the pump to obtain the same discharge rate of a normal sprayer. A normal sprayerhas a 12V pump and a pressure from 0.2 to 0.45 mpa (30-65 psi)The application rate of the main pesticide is 9.6 - 19.2 fl oz/A (Brigade Insecticide for sweetpotato)Thai was the initial deign where the water tank is above the battery and pump, but wechanged our mind, now it is the battery and pump above the waterBattery selection* once the size of the pump…
Q1 Determine the minimum size of glass tubing that can be used to measure water level, if the capillary rise in the tube is not to exceed 0.3 mm. Take surface tension of water in contact with air as 0.0735 N/m. A U-tube is made up of two capillaries of bores 1.2 m and 2.4 mm respectively. Q2) The tube is held vertical and partially filled liquid of surface tension 0.06 N/m and zero contact angle. If the estimated difference in the level of two menisci is 15 mm, determine the density the liquid. Q10) In measuring the unit energy of a mineral oil (specific gravity = 0.85) by the bubble method, a tube having an internal diameter of 1.5 mm is immersed to depth of 12.5 mm in oil. Air is forced through the tube forming a bubble at the lower end. What magnitude of the unit surface energy will be indicated by a maximum bubble pressure intensity of 150 N/m.
If the pressure in a tank of oil (sp gr 0.85) is 375kn/m2, what is the equivalent head; (a) in meters of the oil; (b) in meters of water; (c) in meters of mercury? NOTE: Clear handwritten solution
Q2) Fill in the blanks with appropriate word(s), for EXKEl of the following; K Specific weight is defined as According to the variation of density with pressure, Nuids may be classified into - Nuids and - Nuids. 3. The approximate number of experiments to evaluate the influence of 3 parameters separately is assuming that 5 experiments are needed for each variable. ¿When viscous resistance is important, -. criteria for similarity is used. S. The center of pressure is defined as - A Hydrostatic forces in a static fluid is the result of the exerted on submerged surfaces. Streamline is defined as Continuity equation represents the d 0, conservation of
C1 (a). A lubricating oil having the dynamic viscosity of 0.055 poise and kinematic viscosity of 0.17 stokes. Calculate (i) the density of oil in kg/m3, (ii) the weight density of oil in N/m3,(iii) the specific gravity, and (iv) the specific volume in m3/kg. C1 (b). Calculate the capillary effect in mm in a glass tube of 4.4 mm diameter, when immersed in (1) water (2) mercury. The values of surface tension in contact with air are 0.0737 N/m and 0.54 N/m respectively. The contact angle for water =00 and mercury =1300. (Enter only the values by referring to the unit given. Also, upload the handwritten answers in the link provided) C1(a).(i).The density of oil in kg/m3 C1(a). (ii) the weight density of oil in N/m3 C1(a). (iii) the specific gravity C1(a). (iv) the specific volume in m3/kg C1 (b). 1.The capillary effect (water) in mm C1 (b). 2.The capillary effect (mercury) in mm
A hydrometer fl oats at a level that is a measure of thespecifi c gravity of the liquid. The stem is of constant diameterD , and a weight in the bottom stabilizes the body tofl oat vertically, as shown in Fig. . If the positionh = 0 is pure water (SG = 1.0), derive a formula for h as afunction of total weight W , D , SG, and the specifi c weightγ 0 of water.
A closed tank contains 0.610 m of mercury ( specific gravity = 13.6 ), 524 m of water, 2.438 m of oil ( specific gravity = 0.75 ) and an air space of 1 m above the oil. If the pressure at the bottom of the tank is 276 kPa, what should be the reading of the gage in the top of the tank?
1. You are tasked to supervise the design of 0.5MW wind turbine to be constructed in a Wind Farm in Pililla, Rizal. Suppose the design criteria are as follows: The air density as surveyed after 2 year period averaged at 1.225 kg / cubic meter. The sweeping diameter of the rotor blades is 125m, and the anemometer reading in the area amounts to 4.2m/s on a 2 year period of survey. In the design specifications given, if the actual measurement of power via the substation amounts to exactly 530kW and given that the windspeed is off by 0.05m/s, what could have been the error in the measurement of diameter? Your answer must be in 3 decimal places and in correct signs and measurement. Show complete solution in paper.
Calculate the pressure of an oil of sp.gr. 0.8, and a mercury of sp.gr. 13.6 in N/cm3. Take density of water, ρ = 1,000 kg/cu.m
What will be the pressure head of a point in mm of Hg if pressure head of that point is equal to 63 cm of water? Assume specific gravity of H_{5} is equal to 13.6 and specific weight of water is 980N / (m ^ 2)
Using Laplace equation figure out how higher than atmospheric pressure is the inner pressure in a drop of water of radius 3 mm interfacing air at atmospheric pressure. Water surface tension 0.072 N/m. Atmospheric pressure 1.01x105 Pa.