4 m Water at 20°C L= 5 m, d = 3 cm 2 m
Q: Water, issuing vertically from a nozzle having a diameter of 25 mm, flows out under a head of 30 m.…
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Q: 3. Water at 20°C flows through a smooth pipe that is 50 cm in diameter and 2 km in length. If the…
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Q: If DA = 23cm, DB = 4cm and L = 9m, and if oil is flowing at a rate of 0.01 m/ s, determine the %3D…
A: The volumetric flow of a fluid through a section can be determined as the product of cross sectional…
Q: A siphon pipe of diameter 250 mm contracts to a diameter of 100 mm over a vertical distance of 5 m…
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Q: The system in Fig. consists of 1200 m of 5 cm castiron pipe, two 45° and four 90° flanged…
A: For water at 20 degree-Celcius, take
Q: Water flows through a pipe at 130 L/s that changes gradually in diameter from 154mm at point A to…
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Q: The ourlet pipe frrom a pump is a bend of 45° rising in the horizontal plane. The inlet and outlet…
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Q: A uniform tube is used to siphon water from the large tank. If the pressure on the outside of the…
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Q: Q8. Considering frictionless, incompressible, one- dimensional flow of water through the horizontal…
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Q: Ex 6: If oil (SG=0.9) is flowing at a rate of 0.06 m/s, determine the difference in pressure between…
A: Given data:- Specific gravity of oil, SG=0.9 => density of oil, ρ=900kgm3 Discharge, Q=0.06m3s…
Q: Q2: What would be the discharge of liquid (u = 1.48x 10-6 m2/sec, s = 0.89) through a smooth pipe of…
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Q: In the venture experiment, if the water volume of 9 L passed through the venture with a time of 43…
A: Given:V=9 LV=9*10-3 m3t=43 secH=0.7 mh=0.015
Q: O For the horizontal laminar internal flow through a pipe of diameter (d), if the velocity profile…
A: The velocity profile is- u(r) =-14μdPdLr2-r02 The maximum velocity is -Umax =…
Q: : Determine the required head H at the inlet section of the oil pipeline. The piston speed is V=15…
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Q: The 45-degree shrinking elbow seen in the figure is in the horizontal plane. (zı=z;). Water enters…
A: Given data: Pipe bend, θ=45°, is in a horizontal x-y plane, where: z1=z2. At section (1): Diameter,…
Q: A 15-ft-diameter tank discharges water at 50 F through a 2-in.-diameter sharp edged orifice. If the…
A: orifice meter is used to measure the rate of flow through a narrow section Coeffcient for discharge…
Q: The open jet of water exits a nozzle into sea-level air and strikes a stagnation tube as shown. If…
A: solution given data D = 8CM d = 4cm P1 = 110Kpa he = 4.03m
Q: PROBLEM: A 90-cm ID pipeline (f = 0.020) of length 3000 m connects a reservoir whose water surface…
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Q: With the haze-pipe system in the figure, the ideal fluid (water) taken from the infinitely large…
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Q: The pump shown in the figure below delivers a head of 250 ft to the water. Determine the power that…
A: Write down the given values along with suitable variables.
Q: Problem 4- A 400cm long pipe with a smaller diameter of 3.937 inchesand a larger diameter of 11.81…
A: To Find : The pressure difference in between the smaller and bigger diameter. Given : The length…
Q: Water flows at the rate of 0.80m3/s in a 900-m long pipe. The total head loss in the pipe is 4m.…
A: GIVEN DATA - Q=0.80 m3/s L=900m h=4m f=0.018 We have to find diameter of pipe using Darcy-Weisbach…
Q: The water flows from the pipe shown in the figure with a flow rate of 0.025 m3 / s and emerges into…
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Q: Water flows from a pressurized tank (@ 300 kPa) to an open tank 5m above. Determine the pressure…
A: Given data Water flows from a pressurized tank Pressure of tank = 300 kPa Open Tank is 5 m above…
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A: As per Bartleby rule we can answer one if two separate questions are posted so please post the next…
Q: A water jet exits from the nozzle to the atmosphere as shown in fig.(1), if the pressure at section…
A: according to the given details
Q: A pipe carrying water tapers from a cross-section of 0.3 m² at A to 0.15 m² at B, which is 6 m above…
A: The given data are: AA=0.3 m2AB=0.15 m2hB=6 mhA=0 mvA=1.8 m/sPA=117 kPa=117×103 Pa Here, A, h, v,…
Q: A ball weighing 1 kg is "floating" on a circular jet, as shown in the figure (ignore the wire, which…
A: To find: The height at which the ball will float. Given: The weight of the ball is m=1 kg. The…
Q: What is the volume (h x A) of this reservoir (m) if h is the height of reservoir (m) and its cross…
A: Bernoulli's equation.
Q: A horizontal pipe bend with a deflection angle of 120o has an entrance diameter of 300 mm and exit…
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Q: Q2) What is the maximum flow rate through the pipe shown in blow if the elevation difference of the…
A: Givenf=0.024L=2000mK1=0.5K2=1K3=1D=0.8m
Q: Oil of specific gravity 0.82 flows through an orifice at the vertical side of a closed cylindrical…
A: Given: The specific gravity of oil, SG = 0.82 The oil level inside the tank, H = 4 m The height of…
Q: Ex: A stream of water of diameter d= 0.1 m flows steadily from a tank of diameter D = 1.0 m as shown…
A: Data given- d = 0.10 D = 1.0 m h = z1 = 2 m z2 = 0
Q: A 7-cm diameter vertical water jet is injected upwards by a nozzle at a speed of 15 m/s. Determine…
A: GIVEN:d=7cmu=15m/s
Q: The pressure inside a horizontal domestic water pipe is 60 psi above atmospheric. If viscous effects…
A: Write the pressure inside a horizontal domestic pipe. P=60 psi Write the unit weight of the water.…
Q: Water flows through a horizontal verturi meter whose inlet diameter is 31 cm and throat diameter is…
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Q: For the horizontal laminar internal flow through a pipe of diameter (d), if the velocity profile (r)…
A: ζ = f8ρV2f = frction factorρ= densityV = avg. flow velocity
Q: Air flowing horizontally at a speed of 100mph through a duct 4 sq.ft in cross-section. The duct…
A:
Q: What is the head loss at the outlet of the pipe that discharges water into the reservoir at a rate…
A: Assumption: Laminar Flow
Q: Oil (SG = 0.88) flows steadily in an inclined pipe at a rate of 7 ft°/s, as shown in the figure…
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Q: Water Bows steadily from a tank mounted on a cart. After the water jet leaves the noode of the tank,…
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Q: Calculate the flow rate in correspondence of the exit of the system shown in the Figure, calculate…
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Q: The water jet exiting from a stationary tank on a rigid wall as shown in the figure. Neglec all…
A: Given:Density of water, ρ=1000 kg/m3diameter, d=300 mm or 0.3 mg=10 m/s2
Q: What is the pressure at point 2 (kpa), if the water flows as iTotational inside the pipe? Given that…
A: Given The pressure at point 1 is P1=7.6 kPa. The velocity at point 1 is v1=4 m/s. The velocity at…
Q: 2. The water flows through a taper pipe of length 100m having diameters 0.6m at the upper end and…
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Q: Water flows in the duct as shown in the figure. The duct is 50-cm high and 1-m wide (dimension…
A: Answer: The required value of angle is 49.4642°.
Q: Water at 65 degrees Celsius is flowing horizontally at a rate of 84.1 m^3/hr in a pipe. It enters a…
A: In this, we have to solve the second question. Draw the free-body diagram of the system.
Q: Q.1. A siphon is used to draw water from a large container as indicated in Figure. The inside…
A: In order to proceed with the problem, the following assumption is taken into consideration. The…
The tank–pipe system of Fig. is to deliver at least
11 m3/h of water at 20°C to the reservoir. What is the
maximum roughness height ε allowable for the pipe?
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- C3/(a) For the figure below take M number of you and find the reactions 3 m 3 m 3 m E 12 M= 13 3 50 N DQ1: the collar shown in figure (1) has a mass of 3 kg and attached to the light spring, which has stiffness of 35 N/m and an unstretched length of 2 m. the collar is released from rest at A and slides up the smooth rod under the action of the constant 75 N force. Calculate the velocity of the collar as it passes position B.I need help with this problem. (The answer should be 23kN)
- Q3) Determine the resultant moment produced by forces FB and FC about point O. Express the result as a Cartesian vector?A steel (E=210 GPa, v=0.32) cylindrical vessel has a diameter R= 25 cm, thickness t=0.2 cm and length L=100 cm. What is the increase in the length of this vessel if it is subject to PR PR. an internal pressure P kPa (unit in kPa)? (Remember: o, =A light balloon that has a volume 2.50 m³ filled with a helium (pne = 0.179 kg/m*) is tied to a light string of length L = 5.50 m. The string is tied to the ground, forming an "inverted" simple pendulum, as in Figure 2a. If the balloon is displaced slightly from the equilibrium position, as in Figure 2b (Pair = 1.29 kg/m³). Determine a) the spring constant, k, (Hint : Use an analogy with the mass hanging at the end of a spring. Solve for the value of k assuming that the restoring force acting on the system takes the same form as Hooke's law), b) the time period of its simple harmonic motion c) the frequency of the simple harmonic motion. He Не Air Air Figure 2: Inverted Pendulum for Question 5
- Given the figure below. Find the momemt of F about O. 4 ft F = {100i – 120j + 75k} Ib 3 ft 5 ft.P =3-1193x10 0 P= 1.9399X10 a= 295-o子 m 2 at eiltıtuce 12 Km Find P,P,T at 6 Icm ?An air chamber is held together by bolts. d = 20 cm, D = 40 cm. A-A: 20 bolts, Dvolt = 2.5 cm. A B d- B Find: Number of bolts required at section B-B.
- 5. A hollow cylinder has length 50.0 cm, internal diameter 5.0 cm and external diameter 6.0 cm. A force of magnitude 1.0 kN acts at each end of cylinder so that the cylinder is being compressed. Determine the compression of cylinder. (Ynollow cylinder = 7 x1010 Nm-2) [8.27 x10-6 m] 6. The water in a marine aquarium is 5 m deen.(b) Figure Q1 (b) shows a thin disc mounted on a shaft between two bearings. The thin disc density is not perfectly uniform because it not perfectly manufactured. The thin disc perfectly mounted on the shaft. The thin disc centre of mass is not the same as the centre of rotation. Consider the unbalance thin disc mass (m), centre by a distance (e) and the shaft rotates at a speed (w). The thin disc attached LL meter from left bearing and LR from right bearing. (i) Find the reaction force on the left bearing, FL. (ii) Calculate the reaction force on the right bearing, FR.A three-dimensional elastic body with dimensions b=2m, h=60cm and a=80cm was subjected to forces of Fx = 960kN and Fy = 4800kN. Since E=210GPa, V=0.3, find the length changes and volume changes in the x, y, z axes.