horizontal pipe, which of the following is constant? Pressure head Elevation head Velovity head
Q: Determine the pressure at the center of the pipe from the piezometer shown. 200mm WATER 75mmØPIPE
A: Given:- a piezo meter is attached to the pipe as shosn below
Q: Figure Q4 shows there are two sections of pipes in the system, which are 38m long of 5 cm diameter…
A: Given, L1 = 38 m L2 = 45 m D1 = 5 cm or 0.05 m D2 = 15 cm or 0.15 m \ Q = 0.005 m3/s
Q: 4. An inclined tube manometer has the area of the reservoir as 277 mm² and diameter of the inclined…
A: Question is based on manometer tube . Area of reservoir , diameter of inclined tube, Specific…
Q: Water flows into a vertical cylindrical tank at 12ft³/min; the surface rises in 6 in /min. Find the…
A: Given data: Discharge (Q)=12 ft3/min Rise of surface = 6 in/min.
Q: 3.a. A steel penstock 60 cm in diameter has a shell thickness of 1.2 m. The pipe is required to…
A:
Q: 8. What are the reasons for minor head loses in a pipe? a) Friction b) Heat c) Valves and bends d)…
A: Loses in the pipe are classified into two types: a) Major losses. Major losses in the…
Q: Two parallel plates kept 295mm a part have laminar flow of oil . The lower plate is stationary and…
A:
Q: What is the pressure difference between A and B point for the following setup. Oil (sp gr 0.8) 0.70…
A:
Q: 6 - Does altering fluid temperature influences the results obtained by pitot static tube? clarify
A: A pitot-static tube is defined as a pitot tube used to determine the velocity at a point in the flow…
Q: ch material at point H, which is located at a distance of a - 1.4 in. above the zo
A: data we have b = 1.1 in d = 6.0 in t =0.50 in ∈1 =2200 ksi∈2 = 28000 ksi Moduli ratio m = ∈2∈1…
Q: b) Air at 30°C flows through a 70 m long, 2 cm x 2 cm rectangular cross section pipe as shown in…
A: given temp = 30 'c length = 70m size =2cm*2cm velocity = 2m/s angle = 35'c to find given above 4…
Q: The pressure in tank is 2.99atm .Determine the gauge pressure.
A: Concept- Gauge pressure is defined as the difference of absolute pressure and atomospheric pressure
Q: Two pipes A & B carries an oil of specific gravities 0.9 & 1.2 respectively. The center of the pipe…
A: Specific gravity of oil in pipe A (S1) = 0.9Specific gravity of oil in pipe B S2 = 1.2Difference in…
Q: 8.8 The spherical gas tank is made of steel (E = 29 x 106 psi, v = 0.3). The inner radius of the…
A:
Q: Q2: An oil of Viscosity Co.15 pa.s) and specific gravity 0.9 is flows Throngh an inclined (300mm)…
A: The slope for constant pressure throughout the pipe is given by: sinθ=-32μVγD2 Where, V = Velocity…
Q: Two concrete pipes are connected in series.
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Q: A pipe conveys water with velocity 360 m/min and pressure gauge shows 5 bar pressure under which the…
A:
Q: What is the capillary rise "h" of water inside the space between two concentric cylinders? Let the…
A: Capillary rise : capillary rise is the rise in liquid level due to action of adhesion or cohesion…
Q: Describe about the piston with pressure chamber in the statnamic test.
A: The statnamic test is the tests which are used for determining load carrying capacity of deep…
Q: Compute the capillary rise in mm of pure water at 100C expected in a 0.8 mm diameter tube. Surface…
A: Capillary raise of water Contact angle of water 0 degrees Diameter tube = 0.8 mm Surface tension of…
Q: Orifice meter with orifis cross-section 0.00785 m2 is inserted in a pipe of cross-section 0.0314 m2.…
A: Given: Orifice cross-section, A1 = 0.00785 m2 Pipe cross-section, A2 = 0.0314 m2 Upstream pressure…
Q: J-Find the rise in a tube capillary * shown for a water- glass interface e=0 iF the tube radius is…
A: Capillary rise in a tube formula is given in the picture
Q: m Carbon tetr
A: Using equation :h=xSmSw-1h=1.16-0.681.601-1h=0.288m
Q: Steel tube shaft having length 3mm and diameter 50mm subjected to axial compressive force 55 k N and…
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Q: Calculate the magnitude of the resultant force on the indicated area on the gate and the location of…
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Q: Refer to Fig. STA-OW-O. Two cylinders P and Q are in a channel as shown. The cylinder P has a…
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Q: 2. An oil is flowing between two parallel horizontal plates which are 20 mm apart. The top plate is…
A: Solution Given Data Horizontal plate distance= 20 mm Uniform Speed= 0.1 m/s Viscosity of oil= 0.1…
Q: 8.8 The spherical gas tank is made of steel (E = 29 × 106 psi, v = 0.3). The inner radius of the…
A: Data is as given
Q: In fig. if h1 = 3 ft. h2= 1.5 ft, the pressure at A =---? (S.G1= 0.7, S.G2= 0.8) s.g.1 S.G2 h₂
A:
Q: A U-tube differential manometer connects two pressure pipes A and B. Pipe A contains carbon…
A:
Q: Given: Internal pressure of the pipe = 2.943 MPa Thickness of
A: Given data- Diameter (D) = 1 m Head (h) = 300 m Internal pressure of the pipe(P) = 2.943 MPa =…
Q: Oil flow at 230 I/s through 200 mm diameter pipe 500 m long. Friction factor 0.0224. Find head loss
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Q: 43° 38° В
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Q: point B. (b) between the two pipes, which has a greater pressure? HO B 125 mm 350 mm Hg 175 mm -i-
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Q: . A rectangular open tank is 6m long, 2m deep and 2m wide is containing water up to lm height. f the…
A: b=2m h=1m L=6m
Q: What is the pressure difference between A and B point for the following setup. Oil (sp gr =0.8) 0.70…
A: convention going vertically upward taking pressure negative going vertically downward taking…
Q: A beaker of height 1m is filled with water, and the system is at rest. The pressure is measured at…
A:
Q: b. A 2-mm-diameter clean glass tube is inserted in water at 15°C (Figure 1.2). Determine the height…
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Q: Q2: A tank of water empties by gravity through a siphon. The difference in levels is 3 m and the…
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Q: a)Determine the difference in pressure between A and B in kPa if h = 0.15 and SG of oil is 0.862.…
A:
Q: Determine the volume of the storage tank.
A: Consider the figure shown below. Segment A (ft2) r (ft) rA (ft3) 1 0.5 x15 x 4 = 30…
Q: Oil of specific gravity 0.80 and dynamic viscosity of 0.05 Pa-s flows at a rate of 100 lit/sec…
A: per our company guidelines we are supposed to answer only first 3️⃣ sub-parts. Kindly repost other…
Q: Two pipes A & B carries an oil of specific gravities 0.9 & 1.2 respectively. The center of the pipe…
A: Difference in centers of Pipe A and B, h = 0.3 m Specific gravity of oil in Pipe A, SA = 0.9…
Q: horizontal plates which are 20 mm apart. The top plate is moving with a uniform speed 0.1 m/s. The…
A: Assuming laminar flow profile
Q: If the pressure head in pipe A is 2 m of water, determine the pressure in pipe B. ‚OIL of Sp. gr.…
A: Given: Pressure head in A = 2 m of water Specific gravity of oil = 0.8
Q: Oil of viscosity 0.1 Pa.s and specific gravity 0.90, flows through a horizontal pipe of 25 mm…
A:
Q: A proposed elevated tank for a certain community has a diameter of 72 inches and a height of 8.930…
A: The given data is shown below: Diameter=72 inchesHeight=8.930 feetArea of cross-section of each…
Q: An oil with p-900 kg/m and v= 0.0002 m/s flows upward through an inclined pipe as shown in Fig.…
A: Given Density of oil =900kg/m3 Kinematic viscosity of oil=0.0002m3/s D=6cm L=10m P1=350kpa P2=250kpa
Q: Q: A smooth pipe carries water at the rate of 300 L/s, kinematic viscosity is 10“ m/s , with a head…
A:
Q: Determine the velocity and pressure in the pipe
A: Pipe 1 Diameter, d1=10 cm Pipe 2 Diameter, d2=3 cm Diameter of round plate, d3=20 cm Force at which…
In horizontal pipe, which of the following is constant?
Pressure head
Elevation head
Velovity head
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- find passive and active pressureSTRENGTH OF MATERIALS A boiler is constructed of 9mm thick steel plates that are fastened together at their ends using a butt joint consisting of two 9mm cover plates and rivets having a diameter of 10mm and spaced 60mm apart as shown. If the stream pressure in the boiler is 1.38MPa, determine (a) the circumferential stress in the boiler's plate apart from the steam, (b) the circumferential stress in the outer cover plate along the rivet line a-a, and (c) the shear stress in the rivets. 60 mm 0.78 mThe aluminum tube AB of cross section has a fixed support on the base and is supported by a pin at the top of a horizontal beam supporting a load Q = 200 kN. Determine the required thickness t of the tube if its outside diameter for 100 mm and the necessary safety factor in relation to Euler buckling for n = 3.0 (assuming A = 72 GPa).
- Adosed cylindrical tank containinga pressurized fluid has an inside diameter of 472 mm and a wall thickness of 10 mm. The tank is pressurized to 240 MPa. Determine the absolute maximum shear stress on the inner surface of the cylinder wall. 40.2 MPa O 295 MPa 35.0 MPa O 272 MPa O 20.9 MPaFind the pressure difference between A and BA base line was measured with a steel tape of designated length 30 m at 20°C at a pull of 100 N. The measured length of base line was 1543 m. The field temperature was 31.5°C and the pull applied was 130 N. Find the correct length of base line. The cross-sectional area of tape is 2 mm², coefficient of thermal expansion of steel is 2.5 x 10-8 °C-1 and E = 2 x 105 N/mm².
- Air with uniform velocity of U is flowing over flat square-shape plates with different arrangements given in figure below. One plate is used in arrangement (a), whereas four square plates are used in the arrangement (b). All the plates are the same size. What is the frictional forces ratio (Fp/Fa)? (Note: Assume laminar boundary layer condition along the plate arrangements) (a) (b)Situation A (1 - 4) A cylindrical pressure vessel is constructed from a long, narrow steel plate by wrapping the plate around a mandrel and then welding along the edges of the plate to make a helical joint . The helical weld makes an angle a = 55° with the longitudinal axis. The vessel has inner radius r= 1.8 m and wall thickness t= 20 mm. The material is steel with modulus E = 200 GPa and Poisson's ratio n= 0.30. The internal pressure p is 800 kPa. Calculate the following quantities for the cylindrical part of the vessel: 1. Calculate the circumferential stress or the cylindrical part of the vessel. А. 72 МPа Helical weld В. 36 МPа С. 24 МPа D. 18 MPa 2. Calculate the longitudinal stress or the cylindrical part of the vessel. А. 18 МPа В. 24 МРа С. 36 МРа D. 72 MPa 3. Calculate the circumferential strain. A. 72 x 106 В. 36 х 10% С. 306 х 10° D. 153 x 10* 4. Calculate the longitudinal strain. А. 72 х 10% В. 36 х 10% С. 306 х 10% D. 153 x 10“The radius of the tube as shown in the figure is 1 mm. The surface tension of water at 20 deg C is equal to 0.0728 N/m. For a water-glass interface 0 = 0 Compute the total force due to surface tension in Newton h 2r-
- A 40mm diameter rod 6m long elongates 12mm under load of 240kN. The diameter decreasesby 0.028mm during the loading. Determine the following:a. The Poisson’s ratio of the material,b. The Young’s modulus of the material, andc. The modulus of rigidity of the material.SECTION: 500mm 20 KN I5 KNIM 1000 mm 12 m Ps 800 KN e : 400 mm (ASSUME IS % LOS SES) A. Determine the stress at the bottom in the free end. (MPa) B. Determine the stress at the top in the fixed end. (MPa)A rigid pipe OABC is subject to a force F = 60i + 75j - 30k (N) applied at point C and force P applied at point B. Assume a =0.4426 m B a 0.1 m