Liquid 1 Liquid 2 h3 h1 h2
Q: Cônsider that the coefficient of passive pressure is given by Kp. What would be the coefficient of…
A: To Find coefficient of active earth pressure Ka Given Kp = 4
Q: B DB z (vertical) L DA
A: Solution:-
Q: Water flows into the atmosphere from a nozzle and strikes a vertical plate as shown in the figure…
A: Diameter of pipe (D1) = 0.3m Area of pipe (A1) = Πd2/4 = 0.0706 m2 Diameter of the nozzle (D2) =…
Q: 6m/s Water flows through the pipe at A at 6 m/s. Determine the pressure at A and the velocity of the…
A: VA=6m/s PB=0 ( subjected to atmosphere) To find pressure at point A and velocity at point B
Q: Question 4. The flowrate of the flow is 0,2c m'/s in a pipe placed on a horizontal plane. The pipe…
A: Given:- a = 4, b = 0, c = 1 The flow rate of the flow = 0.2c m3/sec = 0.21 m3/sec The diameter of…
Q: Rx P2 2 F 150 mmø 300 mmø
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Q: Air h1=? h2=? h3=? F cg, 60°
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Q: A 1 x 1 x 1 meter tank is 50% filled with oil (sp. gr. = 0.82) and the remaining is water. When it…
A: Schematic diagram of the given problem:
Q: Q2) What is the pressure at point (B)inside the pipe shown in figure below if the water jet velocity…
A: Given data in question Diameter Velocity Elevation To find out Pressure at B
Q: Calculate the pressure at B.
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Q: Water flows through the branching pipe as shown in Figure below. If viscous effects in the system…
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Q: For downward real flow in offset water pipe shown, find: The required pressure at D 1. 2. Determine…
A: Given, PA = 50 kPa L = 8 m D = 20 mm or 0.02 m Q = 0.2 L/s or 0.0002 m3/s
Q: The container is partially filled with oil, water, and air. Take ??=62.4 ??/??3, ??=58.4 ??/??3,…
A: Using hydrostatic law pressure can be calculated at this point. Which states that rate of increase…
Q: 2. Water at 100C is flowing from point A to point B the 600-mm B inside diameter through pipe shown…
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Q: If DA = 17cm, DB = 12cm and L = 4m, and if oil is flowing at a rate of 0.08 m³/ s, determine the…
A: Given, Q=0.08 m3/s, DA=17 cm=0.17m DB=12 cm=0.12m L=4 m Assume the xx axis as the datum line
Q: Question 4. The flowrate of the flow is 0,2c m³/s in a pipe placed on a horizontal plane. The pipe…
A: Given Q= 0.2 m3/s D1=0.4m D2=0.8m P1=80 kN/m2 Fx=force component in x direction Fy=force component…
Q: Air Question 5. 1,2 m wide AB gate is articulated from point A shown in the figure. The heights of…
A: Widht of the gate AB = 1.2mHeight of the water h1 = 6.2mHeight of the water h2 = 2.2mPressure =…
Q: Draw the free-body diagram for the following problem. The smooth pipe shown.
A: The free body diagram of the given figure is drawn by replacing the supports by the reactions as…
Q: A 50 °C of liquid water is flowing into and discharging from a pipe U-section as shown in Figure 1.…
A: Velocity defines how fast the air is moving in distance per unit of time. The common units are…
Q: The head loss from section 1 to section 2 in the pipe system shown is 2.1m and the head loss from…
A: find the pressure at pt. 3,P3=?
Q: Problem 6. The 1.2 m - diameter log with specific gravity of 0.8 is 3.0 m long into the paper. The…
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Q: Water flows through the pipe at A at 6 m/s. Determine the pressure at A and the velocity of the…
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Q: Problem 6. The 1.2 m - diameter log with specific gravity of 0.8 is 3.0 m long into the paper. The…
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Q: For the figure shown, calculate the elevation of the pressure head at the junction (P). Round off…
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Q: liquid 1 liquid 2 h3 h1 h2
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Q: Water flows through a pipe at 5 L/s as shown. If the gage pressure of 12.5 kPa, 11.5 kPa and 10.3…
A: Given data, P1 = 12.5 kpa P2 = 11.5 kpa P3 = 10.3 kpa D1= 50 mm D2 = 50 mm D3 = 30 mm Discharge = 5…
Q: 3. Obtain the gage pressure at the center A of the pipe shown. Ignore surface tension effects.…
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Q: An open tank contains 3.56 m of oil (sp.g%3D0.8) and 8.95 m of water. Find the pressure (kPa) at the…
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Q: (a) The velocity at point D, E, and F. (b) The differential height, h of mercury between the…
A: Step : 1 Since you have posted a question with multiple sub-parts, we will solve first three…
Q: A closed cylindrical container is filled with water having a pressure at the top of 196.2 kPa. It…
A: the values given in the question are as follows: radius of tank(R)=0.6 m height of tank(H)=4 m…
Q: Water is stored in a tank with an inclined panel AB whose dimensions are 5 ft long by 6 ft wide. The…
A: Given data: Panel dimensions are 5 ft long by 6 ft wide. gage liquid height of z = 2 feet.
Q: Water at 25° is flowing between A and B through a steel pipe 30 centimeters in diameter and a length…
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Q: 3.36 Determine the gage pressure at the center of pipe A pounds per square inch and in kilopascals.…
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Q: to 40 2m (M)
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Q: Water flows through the pipe at A at 64 kg/s, and then out of B with a velocity of 4 m/s, as shown…
A: Flow rate can be distinguished by varying its velocity and the area of fluid that is flowing through…
Q: A pump draws water from reservoir A and lifts it to a higher reservoir B, as shown in Figure P4.2.6.…
A: Given Data: The head loss from A to the pump is, hLA=4v22g The head loss from B to the pump is,…
Q: .) For the tank shown below (width = 1.25 m), determine (6.a) the maximum horizontal acceleration…
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Q: Determine the magnitude of the force in the inclined gate 1.5m by 0.5m shown. The tank is completely…
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Q: Question 4. The flowrate of the flow is 0,20 m²/s in a pipe placed on a horizontal plane. The pipe…
A: Solution Given Data Flow Rate Q=0.20 m3/s Pipe Diameter D1= 0.41 m Pipe Diameter D2=0.28 m Gauge…
Q: Gate AB is 8m wide. Compute the vertical component of the total hydrostatic force acting on gate AB.…
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Q: (a) Determine the flow, in m^3/s through the pipe at C neglecting all losses. (1 bar = 100 kPa). *…
A: given- a tapered pipe carrying water. required-to determine flow and pressure at C.
Q: Q3. (a) Determine the resulting hydrostatic force of water acting on the cylindrical wall of the…
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Q: The rectangular bin with an inclined gate AB is filled with water to the depth shown. Determine the…
A: Draw the pressure diagram. Then using the properties of pressure diagram the depth of center of…
Q: Water at 60°F is siphoned between two tanks as shown in Figure P8.27. The connecting tube is…
A: The concept used in this question is Bernoulli's equation between two points. Bernoulli's equation…
Q: Problem 6 . For the tank shown below (width = 1.25 m), determine (6.a) the maximum horizontal…
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Q: An open tank contains 4.93 m of oil (sp.g%3D0.8) and 5.51 m of water. Find the pressure at the…
A: Pascal's law says that pressure applied to an enclosed fluid will be transmitted without a change in…
Q: If the friction headloss is significantly changing in a pipe flow, which of the following is most…
A: Given data in question Pipe flow Friction head loss To be discussed Friction headloss…
Q: Determine in psi the pressure drop between the ends of this duct.
A: Given data: P1=0.0406 lb/in2. P2=0.022 lb/in2.
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- please solve part 4Determine the resultant force of the water acting on the circular glass plate that Is to the side panel of the tank. Also, determine the location of the center of pressure along this inclined side, measured from the top. Question 2: FYw.h.A ate Fv= Yw.V 3 m radie 9810 Ixr x gate 9810 1 m 2 m Ma:0 Nar3- Fn 号×3-fvx3- -0 Ma=0-) NBx3- F t /2Fy-0 120° 3 m 1,- I,Fluid.mec
- Differential Equation (3xy + 3y - 4)dx + (x + 1)2 dy = 021:19 40 A 9 41%- Chegg Home Expert Q&A My answers ( Civil Engineering Question The rope ABexerts a 46 - N force T on the collar at A Let rCA be the position vector from point Cto point A (Figure 1) Figure You answered Bo P1 IIThe vector from point A to C can be written as: 1.5 m F1 = 150 N 4 m F2 = 200 N 3 m 60° 3 m f2m- "AC =3i-0.5j+4k m AC = 3i-0.5j-4k m %3D AC =3i+0.5j-4k m Ac =3i+0.5j+4km
- The pipe assembly is subjected to a force of 600 N at B. 150 mm 150 mm Part A 400 mm B 60° 30° 600 N 500 mm Tap image to zoom Determine the magnitude of the resultant internal normal force acting on the cross section at C. Express your answer to three significantAssume that F = {28i-42j+47k} lb (A) Determine the magnitude of the component of F acting along the segment BC of the pipe line assembly (Express your answer to two significant figures and include the appropriate units) (B) Determine the magnitude of the component F acting perpendicular to the segment BC of the pipe assembly (Express your answer to two significant figures and include the appropriate units)TWO CONCRETE BLOCKS WEIGHING 1800 N EACH FORM PART OF THE RETAINING WALL OF A SWIMMING POOL. WILL THE BLOCKS BE IN EQUILIBRIUM WHEN THE POOL IS FILLED, AND THE POOL EXERTS THE LINE LOADING SHOWN? IF YES, WILL IT SLIDE OR TIP? ALSO, DETERMINE THE HEIGHT OF WATER IN WHICH THE POOL WILL BE FILLED SUCH THAT THE BLOCKS WILL BE IN EQILIBRIUM. 300 mm 540 mm A-0.5 540 Plastic liner mm A-10 6Nmm
- Compute the value of R1 and R2.HW A nigid slab weighing 6o0 Kw is Placed uron two bronze vads and one Steel Vod Cach of bo00 mm2 area at a temPerature of 15 Ĉ as shown, find the temPerature at which the stress in steel Vod will be Zero ? takei Cuefficient of exransion for Steel= 12Mm/m.č Coefficient of exransion for brónze = 18 Mm/m.c %3D Young's modulus for steel = 200 G la Young's modulus for bronze = 80 GPa 600 IW -bronze 25orpm 30mm steel2. Explain the difference between sx and o and between m and mx.