In a pipe conveying steady flow of incompressible fluid, what factor determines the magnitude of flow velocity? CHOOSE ONE: Temperature Friction Cross-sectional area
Q: The ideal fluid (water) taken from the infinitely sized chamber A with the chamber-pipe system in…
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Q: n a refinery, fuel ethanol is flowing in a pipe at a velocity of 1.2 m/s at 2 atm. The refinery…
A: Given data v1=1.2 m/sP1=2 atmP2=1 atmd1=40 cmd2=10 cm Here, v is the velocity of flow and P is the…
Q: Q3:- A liquid whose coefficient of viscosity is µ flows below the critical velocity for laminar flow…
A: The loss of pressure in a length of 120 m is 11520 N/m2.
Q: Q3/B/ A non-Newtonian fluid that can be described by a power law model for which n is 0.2 and k is 5…
A: Given data,Non‐Newtonian flow is givenPower law modeln=0.2K=5Pipe length L1=10mPipe Diameter…
Q: Water density =1000 kg/m³ and viscosity is 0.001 N s / m², is pumped between two reservoirs at…
A: Given:Density, ρ=1000 Kg/m3μ=0.001 Ns/m2Q=0.2 m3/sL=400 md=8 cm =0.08 m
Q: 4. Water flows out of a large tank through a 1-cm diameter siphon tube. The siphon is terminated…
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Q: 1. A pipe 100 mm bore diameter carries oil of density 900 kg/m3 at a rate of 4 kg/s. The pipe…
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Q: The ethanol solution is pumped into a vessel 25 m above the reference point through a 25 mm diameter…
A: As per Bartleby Policy, in case of multiple subparts, only the first three subparts can be solved,…
Q: Consider two liquids of densities p₁ = 1000 kg/m³ and p2 = 800 kg/m³ that are initially flowing in…
A: According to principle of conservation of mass, the mass can neither be created nor be destroyed so…
Q: Q1- Water flows at a rate of 0.040 m³/s in a 0.12-m-diameter pipe that contains a sudden contraction…
A: Given Data Water flow rate, Q=0.04 m3/s D1=0.12m D2=0.06m A1=3.14(0.12)2/4=0.0113 m2…
Q: Consider the incompressible, frictionless flow of a fluid in horizontal piping. The pressure and…
A: given data- P1 = 150 kPa v1 = 1.25 m/s P2 = 140 kPa Density = 700 kg/m3 to determine- v2 (velocity…
Q: engineering problem. The Reynolds Transport theorem for conservation of mass is as follows…
A: Ans: option (b) is correct. b. Equal to
Q: Water is discharging out of a tank via a pipe with length L 4.2 m and diameter D= 3.5 cm into an…
A: Length of pipe = 4.2 mDiameter of pipe = 3.5 cm = 0.035 mH = 4.2 mDensity of water = ρ = 1001 kg/m3μ…
Q: A straight 10-cm commercial-steel pipe is 1 km long and is laid on a constant slope of 5°. Water at…
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Q: In a pipe conveying steady flow of incompressible fluid, what factor determines the magnitude of…
A: To find : what factor determines the magnitude of flow velocity In a pipe conveying steady flow of…
Q: A tap discharges water evenly in a jet at a velocity of 2.5 m/s at the tap outlet, the diameter of…
A: The velocity of the jet at the outlet of the tap is V1=2.5 m/s. The diameter of the jet at the…
Q: A liquid flows through a 2.067-in ID standard steel pipe at a velocity of 3 m/s. If the density and…
A: Given data as per question Diameter of steel pipe =2.067 in=0.0525018mvelocity =3 m/sdensity of…
Q: Problem 4- A 400cm long pipe with a smaller diameter of 3.937 inchesand a larger diameter of 11.81…
A: To Find : The pressure difference in between the smaller and bigger diameter. Given : The length…
Q: Assume a mass flow rate of 13 kilogram-force per second. The fluid is moving through insulated pipe…
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Q: Through a refinery, fuel ethanol is flowing in a pipe at a velocity of 1 m/s and a pressure of…
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Q: Question 2. An incompressible fluid flows steadily in the entrance region of a two dimensional…
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Q: A vertical pipe of 1 m diameter and 20 m length has a pressure head of 5 m of oil at the upper end.…
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Q: Here, air (105 kPa) at 37 degrees celcius is flowing upward in a 6cm diamater inclined duct, at a…
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Q: ; An air tank has a volume of 2 m³. In the beginning the air pressure in the tank is 150 kPa. Then…
A: The volume of the tank, V = 2 m3 Initial pressure, P1 = 150 kPa Gas constant, R = 287 Jkg-K Initial…
Q: A 1.0 m radius cylindrical industrial tank filled with viscous oil to a level at a height h from its…
A: Given: Radius of tube = 0.2 m Radius of tank = 1.0 m speed of oil in tube = 0.35 m/s
Q: 2. Through a refinery, fuel ethanol is flowing in a pipe at a velocity of 1 m/s and a pressure of…
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Q: A pipe has a diameter of 100 mm at section AA and a diameter of 50 mm at section BB. The velocity of…
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Q: An open-top container 0.4 m in diameter is filled with water. Near the bottom of the container,…
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Q: Consider two liquids of densities p₁ = 1000 kg/m³ and p₂ = 800 kg/m³ that are initially flowing in…
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Q: A valve in a glue factory fails open, and the thick, viscous glue overflows one side of a…
A: Given, Density of the glue,ρ=1080kg/m3Viscosity of glue,μ=3.2Ns/m2Flow…
Q: Q3/B/ A non-Newtonian fluid that can be described by a power law model for which n is 0.2 and k is 5…
A: n = 0.2 k = 5 (kpa s)^n length = 10 m Diameter = 20 mm Answer : Radius of required pipe is 15 mm
Q: The velocity profile of a liquid flows through the z direction of the vertical tube (figure right)…
A: Given: r0= radius of the pipeVelocity profile,vz=12µdpdzr2-r02
Q: Water is discharging out of a tank via a pipe with length L = 4.0 m and diameter D = 3.5 cm into an…
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Q: Water is discharging out of a tank via a pipe with length L = 4.2 m and diameter D= 3.5 cm into an…
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Q: Q3: The 6-cm-diameter pipe as shown in Figure H.1 contains glycerin (p = 1260 kg/m', u = 1.49…
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Q: For an incompressible flow.
A: l
Q: A fluid is being pumped through a pipe. The density of fluid is 872 kg/m³. The viscosity is 2.8x10²…
A: Given data: The density of the fluid is = 872 kg/m3 The viscosity of the fluid is = 2.8 x 10-2…
Q: Consider two liquids of densities p₁ = 1000 kg/m³ and p2 = 800 kg/m³ that are initially flowing in…
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Q: A horizontal circular tube of radius "b" has a fixed co-axial cylindrical core of radius a. Tb and…
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Q: QI- Water flows at a rate of 0.040 m/s in a 0.12-m-diameter pipe that contains a sudden contraction…
A: In fluid mechanics, there are two types of flow laminar and turbulent. The flow which doesn't have…
Q: Air flowing horizontally at a speed of 100mph through a duct 4 sq.ft in cross-section. The duct…
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Q: Consider two liquids of densities p₁ = 1000 kg/m³ and p2 = 800 kg/m³ that are initially flowing in…
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Q: A certain part of cast iron piping of a water distribution involves a parallel section as shown in…
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Q: The ethanol solution is pumped into a vessel 25 m above the reference point through a 25 mm diameter…
A: To obtain the power required by the pump to elevate the ethanol to the given height will be given by…
Q: In a steady flow of incompressible fluid, as the diameter is doubled, the velocity will (a) be…
A: Given. Final diameter = 2 x Initial diameter ∴ d2 = 2 d1 Considering the same flow rate, ∴ Q1 = Q2…
Q: Water passes through a 2.5 cm (inner diameter) horizontal tube at a speed of 6.0 m/s. Water…
A: For flow inside a channel, the energy interactions can be analyzed using the control volume…
Q: Q4: Answer A or B A-Ethyl alcohol flows in the pipe as shown in Figure below of specific weight 49…
A: Given dataEthyl glycol of specific weight w= 49lb/ft3Specific weight of mercury wHg = 846…
Q: Consider steady developing laminar flow of water in a constant-diameter horizontal discharge pipe…
A: Given data velocity of fluid at entrance and exit are same V1 = V2 = V Pressure P1 = Pressure at the…
Q: The pump is used to transfer fluid from one location to another of different height. At inlet and…
A: Now applying the Bernoulli theorem pressure energy1+Kinetics Energy1+Potential energy1=pressure…
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- SAE 30 oil at 20°C flows in the 2.5-cm-diameter pipe as shown in the figure below, which slopes at 37°. For SAE 30 oil, take ρ = 891 kg/m3 and μ = 0.29 kg/m⋅s. Determine the flow rate in m3/h. The flow rate is m3/h.The volume flow rate of laminar and fully developed flow in an inclined pipe of length L can be calculated using the formula of Q=[(ΔP-ρgLsinθ)πD⁴]/128μL. When this pipe is placed on the horizontal plane under the same condition, which term of the above expression should be eliminated?In a pipe conveying steady flow of incompressible fluid, what factor determines the magnitude of flow velocity? O Friction O Temperature © Cross-sectional area
- Water at 15 degrees Celsius is flowing through a 2-in ID smooth pipe. The friction loss for a 100-ft section of the pipe amounts to 4.8 lbf/lbm. Determine the velocity of the flow.A 1.0 m radius cylindrical industrial tank filled with viscous oil to a level at a height h from its base, must be drained through a tube with a radius of 0.2 m and length L, connected to its base. The speed profile of oil in the drain tube can be described by the equation below. Where v is the oil speed, vmax is a = maximum oil speed, r is the radius, and R is the tube radius. Considering this problem situation, do what is asked in the following items, justifying your answers. a) What is the volume, in liters, of oil removed from the tank after 10 seconds, if the maximum discharge speed does the oil reach 0.35 m/s? Data: π ≈ 22/7; 1 m3 = 1000 L. b) What flow regime does the system operate? Demonstrate. Data: specific mass of oil = 800 kg/m3, specific mass of water = 1000 kg/m3, oil viscosity = 0.056 Pa.s e viscosity of water = 0.001 Pa.s.Consider fully developed, steady flow of a constant density Newtonian fluid in a circular pipe of diameter D, as shown in Figure P9.5. (a) Show that the pressure gradient dp/dx = 4τw/D, where τw is the viscous shear stress at the wall. (b) If the velocity distribution is triangular, find the average velocity V at any cross section, and express the skin friction coefficient in terms of the Reynolds number based on .
- A viscous fluid flows in a cylindrical pipe with a diameter of 10 cm. The velocity of the fluid that is measured 0.012 m away from the pipe wall is 0.8 m/s. If the flow is laminar, determine the centerline velocity and the flow rate.Air flow through the pipe at a rate of 170 L/s. The pipe diameter ismeasured to be 20 cm at the entrance, which reduces to half with asmooth reducing section. The pressure difference between the two pipesections is measured by a water manometer. Assume the systemoperates in the environment at a constant temperature 50°C. Determine the differential height of the water in the manometer and list 3 assumptions that you made.Topics: Fundamental of fluid flow Water flows upwards in a vertical pipeline of gradually varyingsection from point 1 to point 2, which is 1.5m above point 1, at the rate of0.9m^3/s. At section 1 the pipe diameter is 0.5m and pressure is 800 kPa. Ifpressure at section 2 is 600 kPa, determine the pipe diameter at that location.Neglect losses.
- An oil with density of 900 kg/m3 and ? = 0.0002 m2/s flows upward through a 10 m long pipe segment inclined at 40° with the horizontal. The pressures at the upstream and downstream end of the pipe are 350 kPa and 250 kPa, respectively. The diameter of the pipe is 60 mm. Assume the flow is laminar. 1. The head loss along the pipe segment 2. Velocity of flow 3. Reynold’s numberThe ideal fluid (water) taken from the infinitely sized chamber A with the chamber-pipe system in the figure with a fixed diameter 40 cm BCDEF pipe. is poured into the atmosphere , Since zB=29 zC=10, zD=28.5, zE=5 and zF=28 with respect to the reference plane meters; a)determine the flow rate of the system b)draw the relative load (energy) and piezometer level lines c)determine where the greatest pressure will be observed throughout the system and calculate its relative valueFor fully developed laminar pipe flow in a circular pipe, the velocity profile is given by u(r)= 2(1- r2 / R2) in m/s. Where R is the inner radius of the pipe. Assuming that the pipe diameter is 4 cm. find the maximum and average velocities in the pipe as well as the volume flow rate.