← Fluid Properties The diameter of droplet is 0.075 mm. What is the intensity of the pressure (N/sq. cm) developed in the droplet by surface tension of 0.000075 N/mm?
Q: Q- Water is flowing in a rigid pipe, the pressure wave travel will velocity (c) 950m/s. The value of…
A: Given- Pressure wave travel will velocity = 950m/s, Compressibility of fluid C= 6×10–10 , Velocity…
Q: Assume F₁ = 40 kN, F₂ = 50 kN, F3 = 15 kN, F4 = 50 kN, and M = 130 kN.m. 6 m H F 8 m B C M D x F₂
A:
Q: For the beam and loading shown, determine the maximum normal stress due to bending on a transverse…
A:
Q: in 12 in 5 in
A: To find centroid and total area
Q: 23. In the PCA design procedure of rigid highway pavements, the erosion damage analysis was devised…
A: We have to find out the correct option.
Q: 3. Using conjugate beam method determine the value of Elō under each concentrated load of the beam…
A:
Q: An aluminum [E = 11100 ksi] control rod with a circular cross section must not stretch more than…
A: Given data, Stress = 10.8 ksi E = 11100 ksi P = 2090 lb
Q: QUESTION 16 The instrument is sitting at D and backsighting E. The direction from D to E is 560…
A:
Q: Determine the force in member BC and FC and FE by the Method of Joints. State if the member is in…
A:
Q: A stone is fully submerged in water. It weighs 450 N in air and 200 N in water. Calculate the volume…
A:
Q: Determine the internal shear force and moment acting on point C 7-8. Determine the internal shear…
A: Given Data Find internal shear force and moment at point C.
Q: Based on your own opinion/perception, what should be the ROAD USERS CHARACTERISTICS namely, a)…
A:
Q: The upstream channel width = 322 ft; depth = 8.6 ft. The discharge is 27,300 cfs and is all…
A: Channel width= 322 ft depth= 8.6 ft Q= 27300 cfs S0= 0.004 (ft/ft) wing wall width= 122 ft…
Q: Draw the shear and bending-moment diagrams for the beam and loading shown and determine the maximum…
A: A simply supported beam AB, hinged at A and roller supported at D, consists of an overhang portion…
Q: As per IS 800, the efficiency of a riveted joint having the minimum pitch is: 1. 60%
A: Problem from steel structure, Where we are asked to determine the efficiency of a riveted joint…
Q: Two tangents intersect at the chainage of 1250 m and the deflection angle being 36°. Calculate all…
A:
Q: Question- A vertical photograph was taken at an altitude of 2000 m above mean sea level. If the…
A: Given- Altitude H=2000 m, Photograph elevation=250 m, Scale S=1:1000,
Q: Two small circular orifice of diameters d₁ and d2, respectively, are placed on the side of a tank at…
A:
Q: Theory of structure Drow A.F.D S.F.D B.M.D
A: Given:
Q: Problem 557 A cast-iron beam 10 m long and supported as shown in Fig. P-557 carries a uniformly…
A: Given : This is a problem of Structure analysis, where we are asked to determine the safe value of…
Q: Q2 A flanged bolt coupling joins two shafts. It consists of eight 22-mm diameter bolts on a bolt…
A: We have to find out the unit stress in each bolt with the given data,
Q: Q-Two plates of 50 mm thick and 30 mm thick are to be joined by a lap joint using M12 bolts of grade…
A: Given- Plates thickness =50 cm & 30 cm, Lap joint, M12 bolts of grade 4.6, It is needed to find…
Q: Q5) Draw the moment diagrams for the frame. Assume the frame is pin connected at A, B, and C. 4 kN/m…
A:
Q: A barge 6 m wide, 2.44 m high and 15.25 m long floats in a river. It is loaded with rocks such that…
A:
Q: A Determine its smallest thickness b if its width is 56. Assume that it is fixed connected at its…
A: Given : Applied load = 600 lb L = 9.6 ft To Find : The smallest thickness b if its width is 5b.
Q: An experimental device imparts a force of magnitude F = 50 lb to the front edge of the rim at A to…
A: Draw the free body diagram as follows:
Q: Draw the precedence diagram for the following project (The network that represents the project).…
A: Given data, * Uploading Gantt Chart * Duration = 33 days * Assuming Start Date = 24.01.20, * Exp…
Q: A ladder of negligible mass composed of two L-long rails that are hinged at the top, is placed on…
A:
Q: The weight of a body as measured while completely immersed in water was found to be 250 N and in a…
A: Weight of body in water = 250 N Weight of body in salt water = 245 N
Q: ons at supports shear and moment diagrams. EI is constant. 12 kip Fhed -6 ft- B 6 ft- -12 ft- and 3…
A:
Q: Given the tangent distance equal to 148.96 meters and the angle of intersection equal to 40, what is…
A: Given data in question Intersection angle 40 Tangent length 148.96 m To find out EXternal distance…
Q: Consider the beam shown in (Figure 1). EI is constant. Use the conjugate-beam method. Suppose that M…
A:
Q: Yo 10mm y 30mm 30mm 50mm 50mm DETERMINE lyT, IXOT, IXT, IXOT [10mm Xo 80mm 10mm X
A: For the given section, the moment inertia about the given centroidal axis and reference axis can be…
Q: For the diagram shown below find the reactions at each support A 1000 lb I | 8'-0" 7000 lb + 200…
A: Calculate the support reactions by using equilibrium equations 1)Sum of moments are zero 2) sum of…
Q: Given the tangent distance equal to 99.88 meters and the angle of intersection equal to 53, what is…
A:
Q: 3 kips 1.) Determine all bar forces using the method of Joints. Use the procedure in our lecture;…
A: Given Data 1. Find forces in each member using method of joints. 2. Find the forces in member CD,…
Q: The
A:
Q: 6. A tertiary treatment plant treats a municipal secondary effluent and is to employ fixed-bed…
A: Reference : Environmental Engineering, Waste water treatment plant. Given : Flow, COD, Contact time…
Q: Question 6 Calculate the radius of a turn out for a data given below:- G = 1.67 m, D = 13.3 cm & N =…
A: Given- Gauge length G = 1.67 m, D = 13.3 cm & N = 12 Angle of switch Φ = 108’ The radius of a…
Q: 1.What are three important properties of media or media components used in heavy medium separation?…
A:
Q: 3. By using the left side of the figure. determine the force in members FH, FG, and EG by using…
A: A truss is given with roller support at A and hinged support at K Degree of static indeterminacy, Ds…
Q: Problem 11.3 - Determine the product moment of inertia of the beam's area with respect to axes…
A:
Q: The cross-sectional elevation of an arch dam is shown in Figure below. The dam is onstructed from…
A:
Q: A girder and floor beam constrcution subjected to concentrated loads is shown in Figure . Draw the…
A:
Q: 1. Determine the force in each member of the truss shown In Figure 1. Use method of Joints. State…
A:
Q: Q2. The following are the results of a sieve and hydrometer analysis. 1- Draw the grain -size…
A: Data given Find: Draw the grain -size distribution curve Determine the percentages of gravel,…
Q: Laboratory results on a soil have shown that its unconfined compressive strength is 1.2 kg/cm2. In a…
A: Given,Uncomfined compressive strength,qu=1.2 kg/cm2Chamber pressure,σ3=0.4 kg/cm2Additional stress,…
Q: As per IS 800, the efficiency of a riveted joint having the minimum pitch is: 1. 60% 2. 70% 3. 40%…
A:
Q: If the modulus of subgrade reaction of a soil is 20 kg/cu.cm when tested with a 30 cm diameter…
A:
Q: 2- Use PERT techniques find project duration Activity Precedence optimistic Time ABCDEFGHIL J 1 A B…
A: Activities and their relationship with the precedence activities are given. The most likely time,…
Step by step
Solved in 2 steps with 1 images
- SAE 30 oil is contained in a cylinder with inside diameter of 1 in. and length of 1 ft. What is the pressure required to decrease the volume of the oil by 2%?Based on the layout of the water supply system, as show in Figure 1, flow through the delivery pipe, Q = 2.50 cfs and diameter of the pipe, D = 2.65 inch with e = 0.015 inch. Ingore the minor pressure losses and use the following formulae to calculate the major pressure losses. The velocity of flow through the pipe and the friction factor, f, range are estimated to be nearly. Use g = 62.4 lb/ft^3 for water and use Moody's diagram. Water temperature is 20°C (68°F).A pressure gauge at elevation 3 m at the side of a tank containing a liquidreads 88 kPa. Another gauge at elevation 11 m. reads 122 kPa. Computethe specific gravity of the liquid. Use 2 decimal places.
- Water flows through a pipe at 152 L/s that changes gradually in diameter from 196 mm at point A to 456 mm at point B. Point B is 6 m higher than point A. The pressures at point A and point B are 126 kPa and 69.3 kPa, respectively. Assume that the datum line passes through point A. Which of the following most nearly gives the head loss in the pipe? (m). Round your answers in 3 decimal places.If the pressure in a tank of oil (spec. gr.= 0.80) is 60 lb/in 2 , what is the equivalent pressurehead in feet considering the following fluids: a.) oil, b.) water, c.) mercurya. Write the given and required.b. Illustration of the problemc. SolutionQ.1 Calculate Reynold’s Number if kinematic viscosity of a liquid is 0.001 m2/s , density is 500 kg/m3 flowing through dia of 10 mm with velocity of 30m/s?
- Water floes through a circular pipe with a constant radius of 8cm. The speed and pressure at point a is 6 m/s and 300000 Pa respectively.a.) what is the speed of fluid at point b?b.) what is the pressure at point b which is higher than point a for about 5cm?A closed tank contains 0.610 m of mercury (SGmercury = 13.6), 1.524 m of water, 2.438 m of oil of specific gravity 0.750, and an air space above the oil. If the pressure at the bottom of the tank is 276 kPa gage, what should be the reading at the top of the tank? Express your answer in kPa.A closed pressurized tank shown below is filled with oil and mercury. Mercury is confined inan internal reservoir inside the closed tank, the height of mercury is 450mm. An openmanometer is placed on the bottom left part of the tank with liquid “X” as its gage liquid , thedeflection from the gage liquid shows 800mm. Determine the following:a) Height of the oil from point A up to point c if height A to C is 5 times the height of y.b) Pressure at point B in kPa. c) Pressure at point C in psi.
- Q2) Calculate the value of pressure ∆p onside the rain water droplet , if we knowthe radius R=0.2mm and the surface tensionδ = 0.074 N/MA pressure gage 8m above the bottom of the tank containing a liquid with sg=0.75 reads 120kPa. Another gage height 3m reads 150kPa. Determine the weight density of the liquidA pressure gage 7.0 m above the bottom of a tank containing a liquid reads 64.94 kPa; another gage at height 4.0 m reads 87.53 kPa. Compute the specific weight and mass density of the fluid.