6.58 Two circular water jets of 1-in. diameter (d = 1 in.) issue from this unusual nozzle. If the efflux speed is 80.2 ft/s, what force is required at the flange to hold the nozzle in place? The pres- sure in the 4-in. pipe (D=4 in.) is 43 psig. D 30° PROBLEM 6.58
Q: Chapter 3-Equilibrium of Force Systems 20. Determine the support reactions for the truss shown…
A: Determine the support reaction for the truss.
Q: please only answer if sure answer it is correct. will thumbs up if correct.
A: runoffExplanation:Step 1:Step 2: Step 3: Step 4:
Q: A Masonary Dam &m high, 1.5m wide at the top and 5m wide at the Base retains water to a depth of 7.5…
A:
Q: 4. Find the cord tension on this beam 30.0° 45.0° beam = 441 N; 6.00m long (6630 N) 2205 N
A:
Q: Water at 20°C (p=998 kg/m³) is pumped out of a 10 cm in diameter pipe that con- sists of a 2 m long…
A:
Q: Webster method =125ee Design a two phase signal for the = phase signal for the following data VCI…
A:
Q: 109 about industrial piping HOW IS THE PRESSURE DROP CALCULATED FOR A SYSTEM WITH SEVERAL…
A:
Q: *7-28. Determine the slope and the displacement at C. EI is constant. Use the moment-area theorems.…
A:
Q: Show step by step solution
A: The answer is given below.Explanation:Approach to solving the question: Detailed explanation:…
Q: please solve all of the questions in the picture and post your work, please.
A: Detailed step by step solution is given below, still if you have any query please feel free to…
Q: Estimate the elastic settlement below the center of the loaded 1.6m and H. Use Eq. (8.16). area.…
A:
Q: Determine the value of P required to start the 10° wedge to the right. Take the angle of friction =…
A:
Q: (4) [Text-problem 4.29] A 90-m³ basement in a residence is found to be contaminated with radon…
A: Volume of basement, Concentration of Radon, Decay rate constant, Flow, Acceptable concentration, To…
Q: 15. The flexible belt runs around two pulleys of different radii. At the instant shown, point C on…
A: For giventhe radius of pully at A =150mmthe radius of pully at B =100mmvelocity at point…
Q: 20mm Square plate is subjected normal stresses as illustrated. Modulus of Elasticity, E = 890 MPa…
A:
Q: 5-22 The coupling is used to connect the two shafts together. Assuming that the shear stress in the…
A: Number of boltsn=Rd22r3Explanation:
Q: Given the following channel Depth in a Trapezoidal Channel Slope -0.007. ft/ft, Depth (-5 feet,…
A:
Q: Determine the vertical displacement at c by used Virtual Work method. Dont calculate the EI Ans Acy…
A: Determine the vertical displacement of the joint C using virtual work method.
Q: Question 1 Calculate the loads acting on Beam B1 then check the adequa resist the bending moment…
A: To solve this problem, we'll calculate the loads acting on Beam B1 and then check the adequacy of…
Q: What factors should be considered when selecting the most suitable block cavity-filling method for a…
A: Here is the solution of your question:-Explanation:Selecting the most suitable block cavity-filling…
Q: Determine the force in members CD, GD, GF, and CG. Indicate whether members are in tension or…
A:
Q: Problem 2 B a A The 54-N force P is applied perpendicular to the portion BC. Given a = 35.1 deg and…
A:
Q: 18. Fit the data in the table below into the Greenshields' model and determine; (i) The maximum flow…
A: I) The maximum flow, qmax=1852.416 veh/hr ii) Speed at which flow is maximum, u = 31.3 km/hr iii)…
Q: A Boundary Survey provides the following information:
A: The objective of providing a detailed explanation of a boundary survey is to clarify the purpose,…
Q: -Draw the shear diagram of shown beam. 5 k/ft A B 5 ft 10 ft 10 kip 10 ft
A: The objective of the question is to draw the shear force diagram for a beam subjected to a…
Q: (6) Derive an expression relating effluent concentration to influent concentration, hydraulic…
A:
Q: The following structures are composed of members connected by hinges. Draw the body diagram of each…
A:
Q: 1/ For the plan and section of the wall shown below. Calculate quantities for each of the following…
A:
Q: 35 The average daily waste flow from a factory in an industrial estate is 75 m³ of stearic acid…
A:
Q: *5-4 The copper pipe has an outer diameter of 40 mm and an inner diameter of 37 mm. If it is tightly…
A: Maximum shear stress is 26.73 MpaExplanation:Step 1: Step 2:
Q: The measured photo coordinates of images a and b of two ground points A and B are x =+ 45.35 mm; y =…
A:
Q: Floor joists are structural members which support flooring in structures, as in the diagram on the…
A:
Q: F6-7. Draw the shear and moment diagrams for the simply supported beam. -4 m- F6-7 24 kN-m
A: To draw shear force diagram and bending moment diagram
Q: PROBLEM 1: The 1500-kg beam ABC has fixed support at A and connected to beam BD by hinge at B. Beam…
A:
Q: A load P is applied to a steel component which is supported an aluminum plate into which a 12 mm…
A: dh = 12 mm
Q: Describe the purpose and function of a foundation in a building structure.
A: The foundation constitutes an interface between the building structure and the earth. It plays a…
Q: For the frame shown, determine the reactions at the supports (support A is a hinged while B is a…
A:
Q: 22, A folding chair diagram is shown in the following. Determine the pin reactions at each joint,…
A: Note : Dear sudent as per our Bartleby guidelines i am solving first problem only (i.e. problem 2.2…
Q: For the simply-supported beam shown, a = 45 in, L = 10.2 ft, and P = 196 lb. Determine the vertical…
A:
Q: Where did the term bungalow come from and what does it mean?
A: Let's solv ing the forst questionterm bungalow come from and it mean let's discuss
Q: 1.How many days will it take you to consume a 10-m^3 of water if your daily consumption is 30…
A:
Q: A piece of (A= 27 mm,B= 43 mm) material experiences a homogenous deformation. The deformed shape in…
A:
Q: A six-lane freeway (three lanes in each direction) has regular weekday users and currently operates…
A: Given that,make the assumption based continuous flow velocity (Bffs) = 65 mphlane width= 11…
Q: As shown, two composite columns of steel and concrete are used to support a rigid platform. The…
A: F1 = 46.2 kNExplanation:Here is the solution:
Q: Find the principal moments of inertia about the center of mass of a flat rigid body in the shape of…
A: Mass = mArea = A =a2Density, Moment of inertia about the x-axis:
Q: Wetted 4. An Unlined Canal giving a seepage loss of 3.3 Cumec per Million sq; metres Area is…
A:
Q: A three hinged stiffening girder of a suspension bridge of span 100 m is subjected to a UDL of 20…
A: A three-hinged stiffening girder of a suspension bridge of span 100 m is subjected to a udl of 20…
Q: A solid cone of radius r and vertex angle 20 is to rotate at an angular velocity w. The cone is…
A: Object: Solid coneDimensions: Radius: Vertex angle: 2θHousing: Present, with a gap between the…
Q: For a W 12 x 65 column, 20 ft long, and pinned at both ends, (ASTM A572 steel, E=29000ksi,…
A:
Q: Hello, can I get the answer for this question?
A: Answers:a. Speed at Maximum Flow = 40km/hrMaximum Flow = 2880 vehicles/hrb. Possible Flow Speed =…
Show step by step solution
Step by step
Solved in 1 steps with 2 images
- Three pipes of diameters 0.4m, 0.2m and 0.3m of lengths of 400m, 200m, and 300m, respectively, are connected in series. The compound pipe connects two water tanks having a difference of water level of 25m. Determine the discharge through the compound pipe neglecting the minor losses when the coefficient of friction for the compound pipe is 0.006.Water is pumped from reservoir A at elevation 750.0' to reservoir E at elevation 800.0' through a 12′′ pipeline. The pressure in the 12′′ pipe at point D, at elevation 650.0', is 80.0 psi. The lost heads are: A to pump suction B = 2.0 ft, pump discharge C to D = 38V2/2g, and D to E = 40V2/2g. Find discharge Q and horsepower supplied by pump BC.Using a standard pipe with a diameter of 0.1016 m and a length of 152.4 m, water at 16 ° C is transferred from a high tank (z1 = 213.5 m) to another tank (z2 = 200 m) at the lower level. Both tanks are open to the atmosphere. There are 1 closing slide and 2 90º standard elbows in the system. The friction factor is f = 0.01 and the correction coefficient can be taken as α = 1. Find the volumetric flow rate of water (m3 / s) (g = 9.81 m / s2; gc = 1 kg.m / N.s2).
- At the end of a 0.6 m diameter pipe, the pressures is 270,000 N m-2. The pipe is connected to a 0.3 m diameter nozzle. If the flow rate is 1.1 m3 s-1, determine the total force on the connection.A pump draws water from a sump through a vertical 6" pipe. The pump has a horizontal discharge pipe 4" in diameter that is 10.6 ft above the water level in the sump. While pumping 1.25 cfs, gases near the pump at the entrance and discharge read -4.6 psi and +25.6 psi, respectively. The discharge gage is 3.0 ft above the suction gage. Compute the horsepower output of the pump and the head lost in the 6" suction pipe.Answer: 10.7 hp, 2.4 ftCalculate the mechanical power [hp] required on the pump shaft considering the hydraulic system Shown. The pipe is made of commercial steel (roughness = 0.0002 ft) and has two different diameters, up to the pump inlet the pipe is 2 inches with a length of 100ft and from the pump outlet the pipe is 4 inches with 400ft. All elements are screwed The flow rate circulating through the system is 0.5 ft3/s and the efficiency of the pump is 85%. The density of water is 1.94 slug/ft3 and has a viscosity kinematics 1.1x10-5 ft2/s
- A D0 = 12-m-diameter tank is initially filled with water 2 m above the center of a D = 10-cm-diameter valve near the bottom. The tank surface is open to the atmosphere, and the tank drains through a L = 95-m-long pipe connected to the valve. The friction factor of the pipe is given to be f = 0.015, and the discharge velocity is expressed as V =√ 2gz/(1.5 + fL/D) where z is the water height above the center of the valve. Determine (a) the initial discharge velocity from the tank and (b) the time required to empty the tank. The tank can be considered to be empty when the water level drops to the center of the valve.The horizontal nozzle in the given figure has D1 = 12 in and D2 = 6 in, with the inlet pressure p1 = 38 lbs/in^2 absolute and V2 = 74 ft/s. For water at 20 degrees Celsius, compute the horizontal force provided by the flange bolts to hold the nozzle fixed.A.) The loss factor for a 90 degree elbow is: B.) The total form friction head loss in ft is C.) The actual shaft work needed (since pump efficiency is only 60%) in horsepower or hp is: A centrifugal pump takes brine from the bottom of a supply tank and delivers it into the bottom of another tank. The brine level in the discharge tank is 150 ft above that in the supply tank. The line between the tanks is 600 ft of 4-in. Schedule 40 pipe. The flow rate is 400 gal/min. In the line are two gate valves, four standard tees, and four ells. What is the energy cost for running this pump for one 24-h day? The specific gravity of brine is 1.18, the viscosity of brine is 1.2 cP, and the energy cost is $400 per horsepower-year on a basis of 300 d/yr. The overall efficiency of pump and motor is 60 percent.
- A pump is required to transfer water at the rate of 350 kg/s from an open sump to an open storage tank located 30m above the pump. The suction pipe is 350mm in diameter and 12m in length, and the delivery pipe is 550mm in diameter and 40m in length. The friction factor of the pipe system is f=0.005. Q1. Calculate the maximum height at which the pump may be placed above the sump, so that pressure at the inlet is not less than -80 kPa Q2. Calculate the energy to be supplied by the pump per unit mass of water transferred Q3. Calculate the input power required by the pump, which is 60 % efficientA pump is required to transfer water at the rate of 350 kg/s from an open sump to an open storage tank located 30m above the pump. The suction pipe is 350mm in diameter and 12m in length, and the delivery pipe is 550mm in diameter and 40m in length. The friction factor of the pipe system is f=0.005. Q1. Calculate the maximum height at which the pump may be placed above the sump, so that pressure at the inlet is not less than -80 kPa (gauge) (m) Q2. Calculate the energy to be supplied by the pump per unit mass of water transferred (J/Kg) Q3. Calculate the input power required by the pump, which is 60 % efficient (kW)A 1.20 m-diameter(internal)horizontal steel penstock conveys water at the rate of3.6 m3/s. The thickness of the pipe wall is 25 mm. Thebulk modulus of elasticity of water is 2.2 GPa. The pipehas length of 1000 m and the friction factor is 0.020. Thewater surface elevation in the reservoir is 60 m. If theflow is stopped completely by closing the valve in 2sec, determine the following:(a) the maximum water hammer pressure that candevelop.(b) the maximum pressure at the valve.(c) the elongation of the pipe in mm (△=ForcexL/AE) foran almost instantaneous closure.