Explain Compressible and incompressible flow
Q: Explain in detail the application of Bernoulli's Principle in two different situations.
A: Bernoulli's principle: The total magnitude of mechanical energy of fluid consisting of the…
Q: Proof the Bernouli's theorem
A: Bernoulli's theorem:- According to the Bernoulli theorem the total mechanical energy of the moving…
Q: Which statements for Bernoulli's equation are true? a. Bernoulli's equation holds for viscous flow.…
A: Bernoulli's equation states that the total of all forms of energy of a fluid flowing along a closed…
Q: Explain why a change in radius as opposed to a change in pressure is the better way to control blood…
A: The Hagen-Poiseuille equation which describes the flow of a Newtonian fluid (like blood) through a…
Q: Bernoulli. Which of the following observations follows from Bernoulli's equation? O A. Fluid flow…
A: While weight is the force an object exerts, mass is the amount of matter that makes up an object.…
Q: Two holes (top and bottom) are punched on a can on the same vertical axis. Atwhich hose will the…
A: Given data, Two holes are punched on a can at top and bottom, respectively. Let the height of the…
Q: A stream of water from a faucet is narrower at the bottom than the top. What is flow speed of the…
A: Volume flowrate of water in faucet is constant. Formula of volumetric flow-rate is as follows:…
Q: Examples and application of Bernoulli's Principle. Please include illustration
A: Bernoulli's Principle is one of the most important principle in fluid mechanics. This principle set…
Q: A force, F of 1000 N is applied to the smaller cylinder of a hydraulic jack. The area a o of a small…
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Q: The intake in Figure below has cross-sectional area of 0.74 m2and water flow at 0.40 m/s. At the…
A: Given : cross-sectional area = 0.74 m2 water flow rate, v1 = 0.40 m/s v2 = 9.5 m2 At the outlet,…
Q: Water flows through a pipe at a rate of 0.58 m/s. If the pipe has a cross sectional area of 0.03142…
A: Apply volumetric flow formula.
Q: Define equivalent length for minor loss in pipe flow. How is it related to the minor loss…
A: The presence of various fittings, bends, valves, tees, inlets, exits, elbows, expansions and…
Q: Explain when an external flow is two-dimensional, three-dimensional, and axisymmetric. What type of…
A: Based on the shape of the body through which the flow occurs, the flow over a body can be classified…
Q: Use the Reynolds number for a system to determine whether it is laminar or turbulent.
A: Given: Reynolds number
Q: What are the three major assumptions used in the derivation of the Bernoulli equation?
A: The Bernoulli's equation is derived by using the concept of conservation of energy. Bernoulli's…
Q: from the shower you use. Using Bernoulli’s equation, explain what happens to your shower pressure if…
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Q: Determine the speed at which water would flow through a point in the pipe that has a cross sectional…
A: The flow rate is defined as a product of area and velocity. Mathematically, F=AV F is flow rate, A…
Q: Part A - Practice Problem: Determine the gauge pressure for a 1.0-cm-diameter faucet located next to…
A: The gauge pressure for a 1.0 cm diameter faucet is 4.27 atm or 4.27 x 10⁵ Pa
Q: The smaller and larger pistons of a hydraulic press have radius of 0.035 m and 0.0135 m.The input…
A: Th pressure on both side of the piston will be equal to each other. The pressure is define as force…
Q: The image shows how sandbags placed around a leak outside a river levee can effectively stop the…
A: The fluid always flows from high pressure to low pressure. So, water will flow from river to…
Q: Does it matter if one uses gauge instead of absolute pressures in applying Bernoulli's equation?…
A: No ,it does not matter if one uses gauge instead of absolute pressure in applying Bernoulli's…
Q: The horizontal constricted pipe illustrated in Figure below, known as a Venturi tube, can be used to…
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Q: Water (assumed inviscid and incompressible) flows steadily in the vertical variable-area pipe shown…
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Q: A piping system equipped with a pump is operating steadily. Explain how the operating point (the…
A: The plot between the head loss and the flow rate is called the system curve and the plot between the…
Q: A large storage tank, open at the top and filled with water, develops a small hole in its side at a…
A: Recall v=2gh And volume rate flow=Av
Q: 林 Find the flow velocities v1, v2 and v3 and in the conduit shown in the figure. The flow rate Qis…
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Q: A food product with a viscosity of 30 cP and density of 1,975 kg/m3 is flowing through 32-m of a…
A: (a) The formula for the Reynolds number is: Substitute the known values and solve. Now, since…
Q: Use g = 10 m/s2 density of water is 1,000kg/m3 air pressure at sea level = 105 Pascal Consider…
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Q: A 1,200-kg car is resting on a 5.0-m-radius elevating platform of a hydraulic lift. The radius of…
A: According to Pascal law Pressure applied at one point of liquid equally transmitted throughout.
Q: Describe the Bernoulli Effect and how it lifts grains off a bed at the base of a water flow. You can…
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Q: What is the laminar flow rate of water in a pipe with an internal radius of r and a length of L m if…
A: Given: The pressure difference across the pipe is 2.0 kPa. The internal radius is 2.5…
Q: The Venturi meter shown reduces the pipe meter from 0.1m to a minimum of 0.05m shown in Fig. 1…
A: Given:- The Venturi meter shown reduces the pipe diameter from d1= 0.1m to a minimum of d2= 0.05m…
Q: A hydraulic lift consists of a circular input piston of diameter 20 cm coupled to a circular output…
A: Given:input piston diameter, di = 20 cm = 0.2 moutput piston diameter, do = 5.0 mfluid used is…
Q: Identify some substances that are incompressible and some that are not.
A: The definition for incompressible flow is that the density remains constant through the motion of…
Q: ~P PT P The th₂ Please, find pressure on the bottom of the reservoir ift Po=103330 98 Pa, density…
A: Height, h1= 0.91m Height, h2= 1.94m Height, h3= 1.42m Density, ρ1= 924.16 kg/m3 Density, ρ2=…
Explain Compressible and incompressible flow
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