n the table given below. -Excel and determine the fluid types. (Show your o you use to describe the data? Specify the ranges
Q: Distinguish between compressibility and capillarity of water.
A: Solution→Compressibility and capillarity both are different phenomena.we will…
Q: Ex5: If P is pressure, v a velocity and p a fluid density, what are the dimensions (in MLT) system
A: given pressure = P velocity= V density of fluid =ρ
Q: Open Problem - Find the pressure at point A if the fluid is water at 20°C, h, - 0.2 m, and Pm - 101…
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Q: 2.) Find the pressures at A, B, C, and D in Fig. 40.
A: Note:As per our guidelines we are supposed to answer only one question. Kindly repost other…
Q: Open Problem - Find the pressure at point A if the fluid is water at 20°C, h, = 0.2 m, and pm - 101…
A:
Q: What is the smallest diameter glass tube that will keep the capillary height-change of water at 20…
A:
Q: density of the fluid is 2000kg/m3, calculate its specific weig
A: Given:ρ=2000 kg/m3
Q: What would be the rotation rate (in rad/sec) if during rotation the water in the right leg (with a…
A:
Q: L3D0.2 m rotatęs with 6 rad/s inside diameter of 1m that filled with oil that has a viscosity of…
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Q: Explain the differences between Newtonian and Non-Newtonian fluid
A: It is required to differentiate Newtonian and non Newtonian fluid.
Q: Q3: From fluid mechanics science perspective, define the center of gravity and the center of…
A: solution 3:- The centre of gravity is the point in a body about which all parts of the body…
Q: The torque M required to turn the cone-plate viscometer inFig. depends on the radius R , rotation…
A: According to the problem, the torque depends on the radius, rotation rate, cone angle, and…
Q: Using Buckingham Pi theorem to find the coefficients of equation: Pi=[density, running speed,…
A: π=ρa1Nb1Dc1μ
Q: 4. The value of- - specifies whether the fluid can be assumed compressible or incompressible. 5.…
A: 4. The value of ................... specifies whether the fluid can be assumed compressible or…
Q: If a triangle of helght d and base bis vertical and submerged in liquid with its vertex at a…
A: depth of the vertex of the triangle below the free surface = a. Since the math function is…
Q: imagine a wine bottle filled with wine up to the cork. One may break the bottle easily by pounding…
A: Concept: 1) Given that bottle is filled with wine. Also said that there is no any trapping of air.…
Q: 6) Shear stresses in a hydrostatic domain are always equal to zero. 7) In a hydrostatic domain,…
A: (6) The shear stresses in a hydrostatic domain are always zero is a true statement as only principal…
Q: Answer the Following Objective Questions. You should use Equations, Relations, and Sketches,…
A: Dear student, According to the guidelines I am allowed to answer only three…
Q: A cylindrical vessel closed at the top is 0.2 m in diameter, 1.2 m long and contains water up to a…
A:
Q: a 25 m high vertical column of a fluid of density 1800kg/m3 exists in a place where g= 9.6 m/s2 what…
A: To determine the pressure at the base of the column
Q: Explain any 2 basic fluid concept with application and neat Long Answer
A: we are to explain 2 fluid concepts and their applications
Q: 2.39 A block of mass 10 kg and measuring 250 mm on cach edge is pulled up an inclined surface on…
A: Given, Mass of block = m = 10 kg Length of block = L = 250 mm = 0.25 m Width of block = W = 250 mm =…
Q: luid machineries question : Can you give a problem with solution about specific weight property
A: Given Specific gravity To find Problem explaining the specific gravity
Q: e are willing to design a simple setup for the lubrication of a rotating rod. To do so, the…
A: The power will be dissipated due to the viscous shear resistance provided by the film of liquid on…
Q: xplain any 2 basic fluid concept with application and neat figure., (PPT
A: Fluid Mechanics It is the science that deals with behavior of fluids in at rest or in motion. When…
Q: Identify the missing properties of the fluid whose properties are given in the table. Specify the…
A:
Q: Describe the general principles of dynamic fluid?
A: Fluid dynamics: It is a branch of applied science which deals with movements of fluids(liquid and…
Q: velocity distribution of the fluid is parabolic. higher the viscosity of the fluid, the higher
A: given:
Q: Determine the Universal Saybolt Viscosity of water at t=3s. Convert the answer to Poise,
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Q: Derived the general formula of Capillary Pressure.
A:
Q: If a = 2 in, and the density of the fluid is 60 lbm/ft^3, what is the pressure at point B in psia?
A:
Q: Estimate the capillary height for oil in a glass capillary tube 1.7 mm in diameter. Use o=0.514 N/m…
A: Given:d=1.7 mmσ=0.514 N/mθ=120° when a tube is dipped into any fluid the fluid either rises or drops…
Q: Take density of fluid = 1000kg/m^3.. Kindly give correct solution and it should be handwritten in…
A: Given Diameter, d = 0.175 m Height, h = 25 mm of Hg = 3333.06 Pa Density = 1000kg/m3…
Q: Bernoulli's equation can be applied for compressible fluid Select one: OTrue O False
A:
Q: d its kinematic viscosity in m?/s and in stokes
A: To find Absolute viscosity Kinematic viscosity
Q: Example: A Styrofoam cylinder, filled with water, sits on a table. You then poke a small hole…
A:
Q: Define or describe each type of fluid: (a) viscoelastic fluid, (b) pseudoplastic fluid, (c) dilatant…
A: viscoelastic fluid: Viscoelastic fluids are a type of non-Newtonian fluid formed by a viscous…
Q: The device in Fig. is called a cone-plate viscometer. The angle of the cone is very small, so that…
A: Given: A cone plate viscometer sin θ ≈ θ Torque =M Radius=R To derive expression for μ
Q: What is the amount of pressure at point B (PB ), if the fluid is water and H = 35 m ( P at point A…
A: Given P at point A = 1 atm Height, H = 35 m ρ water =1000kg/m3 Find Pressure at…
Q: The system in Fig. is used to calculate the pressure p 1in the tank by measuring the 15-cm height…
A: Given data H=15 cm
Q: If P is the gauge pressure within a spherical droplet, then pressure within a bubble of the fluid…
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Q: I the velocity varies linearly with distance through this fluid nozzie (vertical nozzle). where the…
A:
Q: The figure shows three fluid columns, each with a different cross-sectional area. The fluid is the…
A: Given
Q: For liquid viscosity measurement, it is desired to create a viscometer consisting of two 30 cm long…
A: L=30 cm=0.3 mdi=20 cm=0.2 mdo=20.2 cm=0.202 mT=0.13 NW=40 rad/s→VelocityV=ri.W = 0.2240 =…
Q: Derive the expression for the capillary rise.
A: Capillary rise: When a thin tube is inserted into the water, the water starts flowing in the narrow…
Q: Describe fluid dynamics?
A: Given Data→Fluid dynamicsProblem definition→Problem says describe fluid dynamics.
Q: Problem Solving - Part 1 At 20 0 C, determine pressure (in N/m²) inside a water droplet having…
A:
Q: Q2: Find the shear stress at a point of an oil having density 0.981 gm/cm³. kinematic viscosity at a…
A: Newton’s law of viscosity states that the shear stress acting on the fluid layer is directly…
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- 5.13 The torque due to the frictional resistance of the oil film between a rotating shaft and its bearing is found to be dependent on the force F normal to the shaft, the speed of rotation N of the shaft, the dynamic viscosity of the oil, and the shaft diameter D. Establish a correlation among these variables by using dimensional analysis.At any time, approximately 20 volcanoes are actively erupting on the Earth, and 50–70 volcanoes erupt each year. Over the past 100 years, an average of 850 people have died each year from volcano eruptions. As scientists and engineers study the mechanics of lava flow, accurately predicting the flow rate (velocity) of the lava is critical to saving lives after an eruption. Jeffrey’s equation captures the relationship between flow rate and viscosity as: where ρ is the density of the lava, g is gravity, t is the flow thickness, α is the slope, and m is the lava viscosity. Typical values are given as follows for the flow rate: m= 4x103 kg/(m.s) ±1% ρ= 2.5 g/cm3 ±1% t= 28 cm ±0.5 cm α= 10° ±1 ° g= 9.81 m/s²Here, a 1:10 scale prototype of a propeller on a ship is to be tested in a water channel. What would the rotating speed of the model be if the rotational speed of the p propeller is 2000 rpm, and if: (a) the Froude number governs the model-prototype similarity(b) Reynolds number governs the similarity
- Books on porous media and atomization claim that the viscosityμ and surface tension Y of a fl uid can be combinedwith a characteristic velocity U to form an important dimensionlessparameter. ( a ) Verify that this is so. ( b ) Evaluatethis parameter for water at 20°C and a velocity of3.5 cm/s. Note: You get extra credit if you know the nameof this parameter.Taylor number (Ta) is used here to describe the ratio between the inertia effect andthe viscous effect. By applying Buckingham Pi’s Theorem, determine an equation forTa as a function of the radius of inner cylinder (r), cylinder tangential velocity (v),fluid dynamic viscosity (μ), gap distance (L) and fluid density (ρ).Derive two dimensionless parameters for the shear stress at the pipe wall when an incompressible fluid flows through a pipe under pressure. In the dimensional analysis, use the following significant parameters: pipe diameter, flow velocity, viscosity of the fluid and density of the fluid. Solve the problem on white A4 size paper. Show all the calculation steps.
- A dam 75 ft wide, with a nominal flow rate of 260 ft 3 , is tobe studied with a scale model 3 ft wide, using Froude scaling.( a ) What is the expected flow rate for the model?( b ) What is the danger of only using Froude scaling for thistest? ( c ) Derive a formula for a force on the model as comparedto a force on the prototype.The spherical particle of unit density falls freely in air with a constant velocity of 0.50 cm/sec. The viscosity coeffiecient of the air 0.000180 poise. Using Stoke’s Law, find the radius of the particle.A study of the physical characteristic of honey was conducted due to thelarge demand of royal jelly. A capillary tube viscometer was used by aresearcher in determining the viscosity of the honey. The viscometer is250 mm long with an outside diameter of 55mm and effective thickness of2.5mm and was used horizontally so that the effect of gravity wasneglected. At an ambient temperature of 30oC the following data werecollected: ΔP (Pa) Q (cc/s)10.0 1.2512.5 1.5515 1.8017.5 2.0520.0 2.55 What will be the stress produced per unit length in the tube used in theproduction of royal jelly if it has a radius of 5mm and a flow of 1 capsuleper second. (1 capsule = 0.85 cc of royal jelly).
- Kinematic viscosity /4 of water varies with temperature T as shown in the table. Determine the cubic that best fits the data, and use it to compute peg at T= 10°,30°,60°, and 90°C. by interpolation.) Solve by matlabA ship 100 m long moves in fresh water at 15°C. Find the kinematic viscosity of a fluid suitable for use with a model 5 m long, if it is required to match the Reynolds number and Froude number. Comment on the feasibility of this requirement.A liquid of density ? and viscosity ? flows by gravity through a hole of diameter d in the bottom of a tank of diameter DFig. . At the start of the experiment, the liquid surface is at height h above the bottom of the tank, as sketched. The liquid exits the tank as a jet with average velocity V straight down as also sketched. Using dimensional analysis, generate a dimensionless relationship for V as a function of the other parameters in the problem. Identify any established nondimensional parameters that appear in your result. (Hint: There are three length scales in this problem. For consistency, choose h as your length scale.) except for a different dependent parameter, namely, the time required to empty the tank tempty. Generate a dimensionless relationship for tempty as a function of the following independent parameters: hole diameter d, tank diameter D, density ? , viscosity ? , initial liquid surface height h, and gravitational acceleration g.