For a pressure of 51668 pa, what is the pressure head in meter of Mercury
Q: please simplify this equation: Ę, h. E ₂ K b AT (2, -d₂ ) ( h, the) 2 (E₂h + E₂ k) H max bh³ 2 = [H…
A:
Q: Question 3 Consider 2 which shows a pipe system connecting two reservoirs. The pipe diameter changes…
A: To Find : The hydraulic gradient line and the energy gradient line. Given :
Q: Select the number and type (ns ) of centrifugal pumps for a pumping station that must deliver 130…
A: identical single-stage pumps in parallel.Qt=130 m3/sH=50mN=180 rpmNPSH=+5
Q: A skier is going down a hill, in the position shown, he has a velocity of 14 m/s. If her weight is…
A: V=14 m/sW=800Nμ=0.1 Parabolic surface
Q: . Determine the mass flow rate at the inlet and exits, in kg/s. I V₁ = 30 m/s P1 = 5 bar T₁ = 360°C…
A:
Q: 15.156 Four pins slide in four separate slots cut in a circular plate as shown. When the plate is at…
A: Each pin has a velocity the same as u. aP=aP'=aPF=aC Constant counterclockwise angular velocity ω.
Q: A 100-ft cable is made using a 12- gauge (0.1055-in) steel wire and three strands of 10-gauge…
A: To Find : a) The stress induced in the copper wire. b) The stress induced in the steel wire. Given :…
Q: ind Minimum distance "d" needed to avoid Collisio गे
A:
Q: Moist air at 30oC and 50% relative humidity is cooled to 10oC. If the air has a volumetric flow rate…
A: Given: The inlet condition for moist air is Tdb1=30°C and relative humidity is ϕ1=50%. The final…
Q: 1. Find the transfer function() (in the Laplace domain) of the system. II. Use the Routh-Hurwitz…
A: Given Data: K1=K2=3 N-m/radD1=D2=2 N-m-s/radJ1=1 kg-m2 To Find: (a) Find the transfer function.…
Q: The element that is responsible for the stainless behavior of stainless steel is…
A: Given data:- stainless steel To be explained :- stainless steel and its percentage composition
Q: A 4.5 L four-cylinder diesel engine operates on the ideal Diesel cycle, with a compression ratio of…
A: Given: Initial pressure is P1=97 kPa Initial temperature is T1=27°C=300K Initial volume is V1=4.5L1…
Q: You are moving to a new place and to go faster, you are pushing with a force P, two boxes at the…
A: Given: l1=1.5 mh1=1.6 mm1=12 kgl2=2.4 mh2=2.8 mm2=19 kgμs12=0.34μsg2=0.25 To find: Minimum force…
Q: A shaft is fabricated of solid steel for L₂ = 3 ft and with a brass core the last L₁ = 2 ft away…
A: Given: The length of solid steel is L2=3 ft The length of the brass core is L1=2 ft The modulus of…
Q: A 100 mm by 150 mm rectangular plate QABC is deformed into the shape shown by the dashed lines in…
A: Given Data: H=100 mmB=150 mm To Find: (a) Strain components εx, εy, γxy. (b) Principal strains…
Q: 15.127 Knowing that at the instant shown rod AB has a constant an- gular velocity of 6 rad/s…
A:
Q: The figure shows a cantilever of length L-4 m consisting of steel angles size of 100 x 100 x 12 mm…
A: The deflection at B. Given: The length of the angles is L=4 m=4000 mm. The point load applied is…
Q: For the system shown in the figure, calculate (a) the volumetric flow of water out of the nozzle…
A:
Q: 7-40 Air enters a compressor operating at steady state at 7:=320 K, p. = 2 bar with a velocity of 80…
A: The power required and the exergy destruction. Given: The inlet temperature is T1=320 K. The inlet…
Q: Q2. A component is made from a metal that is known to be viscoelastic and behaves according to a…
A: εo=0.005εt=0.01B=4.2×10-34/hrPan=3.15σo=55×107 paLc=1000 hrsE=200 GPa
Q: How to compute the power of the air compressor?
A: An air compressor is a machine that compresses air and stores it in a tank or reservoir. The…
Q: 1) Determine the support reactions and draw the bending moment and shear diagram of the becima shown…
A: To find - The support reactions and Shear force and Bending moment diagram and also determine the…
Q: 18.4 A homogeneous disk of weight W = 6 lb rotates at the constant rate @₁ = 16 rad/s with respect…
A:
Q: Problem 1. The disk OA rolls without slipping with a constant angular velocity w clockwise. Find the…
A: The disc roll without slipping with angular velocity -ωk⇀
Q: Ten circular fins of uniform cross section, D=15mm, and a length of 75mm, are attached to a 1m2 wall…
A: The number of fins is n=10 The diameter of the fin is D=15 mm. The length of the fin is L=75 mm The…
Q: 6/158 The 165-lb ice skater with arms extended horizontally spins about a vertical axis with a…
A:
Q: 5.5-10 During construction of a highway bridge, the main girders are cantilevered outward from one…
A: According to the given data Load, P = 9.5 kN/m Length, L = 48 m We need to find Maximum bending…
Q: The temperature field within a fluid is given as T = 3xz² + x-¹zt, where x, z are in meters At time…
A: The temperature field within a fluid is T=3xz2+x-1zt At t=6s the location is (x,z)=(1,2).
Q: PROB 3A: The block releases from the spring at point A, compressed with an amount of 0.11 m. The…
A: Given data with variables is shown below. m=10 kgL=7 mS=1.5 me=0.65μ=0.4θ=10°x=0.11 m It is…
Q: One kilogram of air at 100 kPa, 20°C is compressed in a otto cycle with a commpression ratio of 7 to…
A: Otto cycle - One kilogram of air at, P1 =100 kPa, T1 = 20°C = 293 K. commpression ratio (rk )= 7…
Q: 9₁ (N/m) A . I (m) 92 (N/m) Determine the internal loads diagrams of the beam above. In the cell…
A: According to the details provided in the question, we need to calculate The Bending moment at x= 5m…
Q: Q.1:Answer only one from a & b: a: At a certain point in a stressed body, the stresses are o, 400…
A: The stress on the x plane is σx=400 MPa The stress on the y plane is σy=-300 MPa The shear stress on…
Q: a) Define quality, and why is it important in today's business environment? b) Differentiate between…
A: The quality and it's importance in today's business environment.
Q: b: Write the shear and moment equations for a beam shown below Also draw the shear force and bending…
A:
Q: Find the mass and center of mass of the lamina bounded by the graphs of the equations for the given…
A:
Q: A hydropower plant will be built in a river with average flow rate (qv) of 400 m3/s and head (H) of…
A: river with average flow rateQavg=400 m3/sH=25mR=QturbinesQavg=1.3number turbine n=3N=150…
Q: A rectangular gate (h = 3.5 m high, w = 5.5 m wide) is hinged at the top edge at A, which is a = 2.4…
A:
Q: rectangular gate (h = 3 m high, w = 6 m wide) is hinged at the top edge at A, which is a = 2 m under…
A:
Q: Air flows into a converging duct, and a normal shock stands at the exit of the duct. Downstream of…
A: When air flows into a converging duct, the duct's shape causes the air to accelerate, and the…
Q: + GE DIMENSION THE OBJECT SHOWN BELOW. NOTE THAT NOT ALL ORTHOGRAPHIC VIEWS WILL REQUIRE DIMEN-…
A: DIMENSION THE OBJECT SHOWN BELOW. ASSUME CRID SPACING IS 0.2"
Q: Draw the shear and moment diagrams for the loaded beam. After you have the diagrams, answer the…
A: Draw shear and moment diagram for the given loading.
Q: Use Castigliano's theorem to determine the magnitude of deflection at midspan for the solid steel…
A: The dimensions are a=3 in, b=7 in, da=1.125 in, db=1.875 in The distributed load is w=160 lb/in…
Q: Required information Determine the critical load of a round wooden dowel that is 0.98 m long. Use E=…
A:
Q: 3. A mass of 0.5 kg hangs from a spring of negligible mass. When an additional mass- of 0.2 kg is…
A:
Q: How are plasma cutting equipment classified? Enumerate, define each one.
A: “Since you have posted multiple questions, we will provide the solution only to the first question…
Q: Which two of the following are best correct statements for the wall with the temperature…
A: Which two of the following are best correct statements for the wall with the temperature…
Q: A 300-HP engine with a thermal efficiency of 30% is using a remote radiator which absorbs 25% of the…
A: Given:Power produced by the engine, Poutput=300 HPThermal efficiency of the engine, ηth=30 %Heat…
Q: The figure shows a torsion bar OA fixed at O, simply supported at A, and connected to a cantilever…
A: The spring rate torsion bar OA is koa=10 Nm/rad The spring rate for cantilever AB is kab=10 N/m The…
Q: Problem 14.2 A jet of water (r = 1000 kg/m³) is deflected by a vane mounted on a cart. The water jet…
A: The density of water is r=1000 kg/m3 The cross-sectional area of the jet is A=50 cm2=5×10-3 m2 The…
Q: Determine the force in each member of the truss and state if the members are in tension or…
A: Given-Information: F1=F2=500 lb To-Determine: Force in each member.
For a pressure of 51668 pa, what is the pressure head in meter of Mercury
Step by step
Solved in 3 steps with 2 images
- Fig shows a U-tube differential manometer connecting two pressure pipes at A and B. Pipe A contains a liquid of specific gravity 1.8 under the pressure of 118 kN/m?. The pipe B contains oil of specific gravity 0.8 under the pressure of 204 kN/m?. Find the difference of pressure measured by mercury as fluid filling U-tube in mm. The value of x and y are 2.2 m and 1.1 m respectively. Po S, Mercury The Mercury level difference ( h ) in mmQ- At any point, Barometric reading of pressure is 78.2 cm of Hg column & gauge pressure is 37 mm of Hg column. Then Absolute pressure at that point isWhat is the equivalent height of a fluid having an SG of 10 in barometer with a pressure of101.325kPa
- The absolute pressure is 2.50 bars. What is the gauge pressure in kPa?29. The pressure of a boiler is 9.5 kg/cm?. The barometric pressure is 768 mm of mercury. Find the absolute pressure in the boiler.The absolute pressure in a gas tank is 300 kPa 1. Determine the gage pressure. 2. Calculate the pressure head in meters of mercury. Note: Answer the situations with complete solutions. Write your final answer in two decimal places. Please use the correct unit and box the final answer Thank you
- A U-tube differential manometer connects two pressure pipes A and B. Pipe A contains carbon tetrachloride having specific gravity 1.594 under a pressure of 117.72 kPa and pipe B contains oil of sp. gr. 0.8 under a pressure of 117.72 kPa. The pipe lies 2.5 m above pipe B. Find the difference of pressure measured by mercury as fluid filling U-tube.The initial reading differential manometer shown is exposed to the atmosphere at end B. a) Calculate for the pressure in pipe A and the pressure of the air inside the manometer. Express your answer in Pascals. b) Briefly explain why liquid manometers should be checked for air bubbles before being used. SG (pipe fluid)= 0.887 SG (manometer fluid) = 1.05 c = 22 cm d = 17 cm e = 25 cm10. Amicrometer, having a ratio of reservoir to limb areas as 40, was used to determine the pressure in a pipe containing water. Determine the pres- sure in the pipe for manometer reading shown in Fig. 2.45. [Ans. 688.8 mm] Limb Reservoir- 50 mm 80 mm