Q2. (a) Using appropriate diagrams, explain the concept of conservation of mass 5UTM UTM and energy for fluid flow in a pipe. UTM - UTM
Q: Problem 2 -49 A glass U-tube open to the atmosphere at both ends is shown. If the U-tube contains…
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Q: Q5) Using a system similar to that shown in figure, compute the required air pressure above the…
A: Figure is as shown
Q: Required information A garden hose attached with a nozzle is used to fill a 20-gal bucket. The inner…
A: A=π4(d)2=π4(112)2=0.00545ft2vavg=5.8fts-1Q=vavg×A=0.00545ft2×5.8fts-1Q=0.03161ft3s-1
Q: 10-ft diameter by 15-ft height vertical tank is receiving water (density = 62.1 lb/ft3) at a rate of…
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Q: Q:- Prove that the angle of inclination of two fixed parallel plate as shown in fig, so that laminar…
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Q: Q1/ The relation between speed and density on a V = 100-0.8 D. At a flow of 1000 veh/hr, a slow…
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Q: Find the time it takes to decrease the water level in the tank 1 by 1.5m. Use C = 0.60 h.l. 2.3m do:…
A: Given data: diameter of tank 1 D1=6m Dimensions of tank 2 are 3m x 2m Difference in water level h=…
Q: Calculate the density of air at standard conditions (T - 25 °C and P a 1 atm).
A: Density is defined as mass per unit volume.
Q: -Q.17 MASS FLOW AT A PIPE JUNCTION Consider the steady flow in a water pipe joint shown in the…
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Q: The velocity along the centreline of a nozzle of length L is given by 2 V = 2t|1-. 2L where, V =…
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Q: /103 A train enters a curved horizontal section of track at a speed of 100 km/h and slows down with…
A: Rate of change of velocity during…
Q: Water is flowing in a 40 mm diameter uPVC pipe as shown in the figure. The total pipe length is 16…
A: Given: Total pipe length = 16 m Volume of water tank (from empty) = 500 liter Difference in…
Q: pressure of 10 kPa, gage, is applied to the surface of a liquid with specific gravity of 1.0 in an…
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Q: Q3(a) Consider a flow through a cross section of a circular pipe in which the flow is fully…
A: Given data in question Pipe flow Fully developed laminar flow Parabolic equation of flow To find…
Q: At a certain instant, the velocity of cylinder B is 2 ft/s down and its acceleration is 0.5 ft/s2…
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Q: Q1/2. Air flow isentropically through a supersonic convergent divergent nozzle with 0.6 kg/s. At the…
A: Given data Pressure Pa = 700kpa Temperature To = 300kpa Ao = 7 cm2 A1 = 14 cm2 mass flow rate(min) =…
Q: A garden hose attached with a nozzle is used to fill a 20-gal bucket. The inner diameter of the hose…
A: We have to determine the value of how long it will take to fill the bucket with water and the volume…
Q: An inverted 1.5m radius conical Tank is filled with gasoline fuel. The height of the fluid was…
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Q: Referring to the figure below, the tank is being filled with water by two one- dimensional inlets.…
A: As the flow is unsteady, we can apply continuity equation in the control volume.
Q: 5.81 A spherical tank with a radius (R) of o.5 m is half filled with water. A port at the bottom of…
A: The volume of the spherical tank is given by v=πh23R-h3 The discharge is calculated as q = CdA2gh…
Q: The velocity along the centreline of a nozzle of length L is given by 2 V = 2t| 1-. 2L where, V =…
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Q: 3. The venturi meter shown 200 mm inside diameter in figure carries water at 60° C. The specific…
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Q: Given v = 4x10-5m² /s for a given fluid flows in a 1350m long pipe having a diameter of 25mm.…
A: Given kinematic viscosity = 4*10-5 m/s Length of pipe = 1350 m Diameter of pipe = 25 mm To determine…
Q: The velocity along the centreline of a nozzle of length L is given by 2 V = 2t| 1- 2L where, V=…
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Q: Q:- Prove that the angle of inclination of two fixed parallel plate as shown in fig, so that laminar…
A: With the system shown in the figure, v = 0; w = 0 and from equation of continuity dudx=0. Therefore,…
Q: A fluid flows at 0.002m³/s through a 150-mm diameter pipe. Determine whether the flow is laminar or…
A: The given data is: Q=0.002 m3/s D=150 mm=0.15m a)V=Qπ4D2 =0.002π40.152 =0.113 m/sRe=VDν…
Q: A vertical circular cylindrical tank 3.0 m diameter contains water. If the surface is 7.0 m above 10…
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Q: A fluid is flowing in a pipe 8 inches in diameter with a me an velocity of 10 feet/second. The…
A: Given data: Diameter of the pipe = 8 inch=0.667 feet Velocity , v= 10 ft/s Pressure, P=5 psi=720…
Q: Example 3-marine moves horizontally in sea and has its axis 15 m below the surface of water. A…
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Q: The velocity along the centreline of a nozzle of length L is given by 2 V = 2t| 1- 2L where, V =…
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Q: A differential gauge was attached to a venturi meter. The deflecti of mercury is 14.3 inches. Assume…
A: Apply Bernoullis theorem PAγw+vA22g+zA=PBγw+vB22g+zBFrom…
Q: Q5) Heavy fuel oil flows through 3 km of cast iron pipe having a diameter of 250 mm. If the…
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Q: The system shown conducts a fluid relative density of 0.70 and is in a plane horizontal. If gauge 2…
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Q: Oil having a specific gravity .8 flows in a 200-mm diameter pipe. If the velocity is 1.0175 m/s in…
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Q: The velocity along the centreline of a nozzle of length L is given by 2 2t| 1- 2L V = where, V =…
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Q: The rectangular duct section of 400mm*300mm size carries 50 m^3/min of air, with density 1.2 kg/m^3.…
A: Given: a=400mm=0.4m b=300mm=0.30m Q=50/60=0.833 m3/s ρ=1.2kg/m3
Q: Q4. Consider simple laminar pressure driven flow in a circular pipe of radius R. We can write the…
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Q: Determine hç from A to D in the system shown in the figure if the discharge is 1.60 m/s. Assume f =…
A: Given- DischargeQ=1.60 m3/sf=0.02
Q: Q.1.11 - MASS FLOW AT A PIPE JUNCTION Consider the steady flow in a water pipe joint shown in the…
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Q: Q.9.19 MASS FLOW AT A PIPE JUNCTION Consiuer the steady flow in a water pipe joint shown in the…
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Q: 1. 200 N box shown in the figure is acted upon by a force having a variable magnitude F-10r-5t N…
A: Given data- Weight of the box (W) = 200 N Force (F) = 10t2-5t N Initial velocity (v1) = 6 m/s…
Q: The velocity along the centreline of a nozzle of length L is given by 2 V = 2t| 1- 2L where, V =…
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Q: Q1/ Air at 10-C flows through a 40-cm pipe at a velocity of 5m/s. (a) Determine the mass flow rate,…
A: Hi! Thank you for the question, As per the honor code, We’ll answer the first question since the…
Q: 98.1 kPa 오 EL 47 m EL 35 - Butterfly 90° elbows 11. Water is designed to flow in a HDPE pipe of…
A: Given data Diameter (D)= 100 mm = 0.1 m pipe length (L)= 267 m Calculating Head loss hf using…
Q: Q-4 Define coeffecient of velocity, coefficient of discharge, coefficient of contraction. An oil of…
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- 7- Assume that the density of atmospheric air can be expressed as ρAIR=ρ0 exp(-0.05y). Based on this information calculate the density variation in relation to an object that falls at a speed of 20 m/s from a height of 100 m.The velocity of a particle is given by V=25t^2-80t-200, where V is in feet per second and t is in seconds. Plot the Velocity V and acceleration versus time for the first 6 seconds of motion and evaluate the Velocity when acceleration is ZeroQ1: Discuss seven practical applications of Lagrangian and Eulerian descriptions of fluid flow.
- Situation 2. Given the figure below, determine the velocity in (fps) of block A as it hits the surface B. 410 lb-log released from rest. Coefficient of static=0.48 Please answer this with FBD and complete solution. Thank you.9.4.2 Bernoulli Equation Example 9-407 The Orifice Origin: Textbook Compute the velocity of the water through an orifice that is draining a 10-m high tank.Water flows at 0.07 cubic meter per second through a pipe. A horizontal venturi meter with throat diameter of 150-mm was used to measure the velocity inside the pipe. Based on manometer reading, the differential gauge is deflected 1.2 meter. If the specific gravity of the manometer fluid is 1.60, the velocity, in meter per second (m/s), of water inside the pipe is ____ ANSWER ASAP
- 3.) An open cylindrical tank having a radius of 300 mm and a height of 1.2 m is full of water. How fast should it be rotated about its own vertical axis so that 75% of its volume will be spilled out? Answer: 218.4 rpm Subject: Fluid Mechanic Lesson: Relative Equilibrium of Liquids Fundamentals of Fluid Flow40.) A large closed tank is filled with air under a pressure of 5.3 psi gage and at a temperature of 65°F. The air discharges into the atmosphere (14.7 psi) through a small opening in the side of the tank. Neglecting friction losses, compute the velocity of the air leaving the tank assuming (a) constant density of the air and (b) adiabatic flow conditions. ANSWER: 692 ft/sec, 728 ft/sec 41.) For Problem 40, if the pressure were 10.0 psi, what would be the velocity for (a) and for (b)? ANSWER: 855 ft/sec, 934 ft/secA cylindrical tank is having hemispherical base. The height of cylindrical portion is 4 m and the diameter is 3 m. At the bottom of this tank an orifice of diameter of 300 mm is fitted. Find the time required to completely emptying the tank. Take Cd= 0.60. Answers: a.145 seconds b.127 seconds c.217 seconds d.175 seconds
- (fluid mechanics question) Diesel fuel with a specific gravity of 0.8, flows through the Venturi meter shown in figurebelow. If viscous effects are negligible, determine;a) the elevation, hb) the volume flow ratec) the mass flow rateParameters given for the velocity, the distance and the angle as (m/s), (cm) and (degree)respectively, V=49, h1=12x9, h2=4x4, D1=24, D2=14, angle=0A 10-ft diameter by 15-ft height vertical tank is receiving water (density = 62.1 lb/ft3) at a rate of 300 gpm and is discharging through a 6-in ID line with a constant speed of 5 fps. At a given instant, the tank is half full. Find: a) the water level in ft and b) the mass change in lb in the tank 15 minutes later.The specific gravity of the manometer fluid shown in the diagram is 1.07. Determine the volume flowrate, Q, if the flow is inviscid and incompressible and the flowing fluid is (a) water, (b) gasoline, or (c) air at standardconditions.