3. The gage pressure of the air in the tank shown in the figure is measured to be 65 kPa. Determine the differential height h of the mercury column.
Q: Nitrogen is compressed to a density of 4 kg/m^3 under an absolute pressure of 400 kPa. Determine the…
A:
Q: a. A tank, 8 m in depth, is filled with water to a depth of 5 m. On top of the water, oil of…
A:
Q: Fluid with a density of 1200 kg/m^3 is applying pressure on the gate shown. The depth of the water…
A:
Q: 2. A vertical, triangular gate with water on one side is shown in Figure. Determine the total…
A: To find: The total resultant force acting on the gate and location of the center of pressure. Given:…
Q: The absolute pressure of air in the tank is 70 kPa. If the barometric pressure is 755 mm Hg…
A: Pa = 70kPaPb = 755 mmHg = 7551000x9.8 x 13600 = 100.729 kPa→ Here , Pa<Pb . So , pressure…
Q: 1. A vertical parabolic plate whose height is 2 meters is submerged in a certain liquid (s.g. =…
A:
Q: Determine the pressure exerted on a submarine at 300m below the free surface of the sea. Assume the…
A: submarine at 300m below the free surface Patm =101 KPa ρ = 1030Kg/m3 the pressure exerted on a…
Q: The semicircular plate as shown in the figure is 4 ft long and acts as a gate in channel. Determine…
A:
Q: Determine the new differential reading along the inclined leg of the mercury manometer of the figure…
A:
Q: Determine (n) and gage pressure (A&B), if gage pressure at (A) increased by 45% from pressure B.…
A: Given: The pressure at top of the water is P'=180 kPa. The height of mercury liquid is H=80 cm For…
Q: A 3 m diameter , 7 m long cylindrical tank is completely filled with water. The tank is pulled by a…
A: Given: The diameter of tank, d = 3 m The length of cylinder, L = 7 m The acceleration of truck, a =…
Q: 2. A vertical, triangular gate with water on one side is shown in Figure. Determine the total…
A: Given:Width of the traingular gate, b=2 mheight of the triangular gate, h=3 m
Q: A rectangular parallelepiped tank measuring 40cm x 30cm x 20cm is filled with water. Determine the…
A: Given;- dimension of tank = 40cm x 30cm x20cm and assuming a depth of 20cm To find:- a) When the…
Q: The distance between the two plates, which are 2 m x 2 m in size and parallel to the earth surface,…
A: Given data: The area of the plate is A=2×2=4 m2 The distance between the plate is h=9 mm=0.009 m The…
Q: Both a gage and a manometer are attached to a gas tank to measure its pressure. If the reading on…
A: Given Pressure gage = 80 kPa Density of mercury = 13, 600 kg/m3 Density of water = 1000 kg/m3 To…
Q: (b) A cone is placed in a water tank as shown in Figure 3 (b). If the mass of the cone is 1.1 kg,…
A:
Q: 2Osed top What is the maximum gage pressure atmosphere in the odd tank shown in the figure? Where…
A: S=Specific Gravity=3
Q: A 3-m-diameter, 7-m-long cylindrical tank is completely filled with water. The tank is pulled by a…
A: Consider the diagram shown below for the cylindrical tank.
Q: The pressure in the pressurized water tank is measured by a multi-fluid manometer with one end open…
A:
Q: Ехample 2 The natural gas in the storage tank is contained within a flexible membrane and held under…
A: given gage pressure at point A (PA)=600KPadiameter (d)=20mweight(w)=?height of tank (h)=30m…
Q: Q3 :A plate ABCD hangs in water from one of Water Surface its corners (as shown in the figure).…
A: Consider the ABCD hangs as shown below, Where h* is the location center of pressure and h¯ is the…
Q: (1) The gage pressure of the air in the tank shown in the figure is measured to be 40 kPa. Determine…
A: Fluid is a state of matter which deforms continuously on the application of force externally,…
Q: Determine the pressure exerted on the surface of a submarine cruising 225 ft below the free surface…
A: Given data: Barometric pressure or atmospheric pressure, Patm=14.7 psia=(14.7×4633.063)…
Q: A closed tank rectangular in plane with vertical sides is 1.8m deep and contains water to a depth of…
A: Draw the schematic diagram.
Q: an inclined rectangular gate with water on one side. determine the total resultant force acting on…
A: Given, An inclined rectangular plate . Water on one side . To find - The total force and the…
Q: h OA. TR? C. (h +r)w + - TR²
A: Divide the semi Circle into two quater circles as shown below and the vertical forces act on curve…
Q: (b) Consider two identical water tanks (20 m x 10 m x 10 m) filled with water. The depth of water in…
A: given; ⇒identical dimension of two tank =(20m*10m*10m)⇒depth of first tank (w1)=8m⇒depth of water in…
Q: An open tank containing water has a bulge with R = 5ft in its vertical side that is semicircular in…
A: Given data, R= 5 ft S=11 ft ρω=62.4 lb/ft3 l=4 ft…
Q: Fluid with a density of 1200 kg/m^3 is applying pressure on the gate shown. The depth of the water…
A:
Q: SS 3-35 An open tank is filled with water to the depth indicated. Atmospheric pressure acts on all…
A:
Q: (1) The mercury manometer in the Figure below is connected to the inlet and outlet of a water pump…
A: givendensity of mercury ρMg=13593kg/m3density of water ρw=1000kg/m3h2=15cm=0.15m
Q: Open tank (4.5 m long, 2.5 m height and 3 m wide) contains liquid (S-0.75) to height 1. m. If this…
A:
Q: Consider a glass of water. Compare the water pressures at the bottom surface for the following…
A: a. When glass is stationary: Pressure at bottom of water glass =Patm+ρghwhere,ρ=density of…
Q: Question Q:- Determine the force exerted on the cone curved surface. The liquid in the tank has a…
A: Given data specific weight of liquid (γ) = 27kN/m3absolute pressure of the air (Pa) = 151 kPa…
Q: Water fills the pipe AB such that the absolute pressure at A is 450 kPa . The inner diameter of the…
A: Pascal law states that the pressure in a static liquid at a point is same in all direction.…
Q: The U pipe in the figure has a diameter of 1 cm and stands in balance as shown in the figure. When…
A: Given: Diameter of the tube D=1cm The volume of water added in the right tube V=20cm3 Relative…
Q: Fluid with a density of 1200 kg/m^3 is applying pressure on the gate shown. The depth of the water…
A: ρ=1200 kg/m3 h=6 m b=3 m Area=b×h Area=3×6 A=18 m2 Centroid of the gate (h¯)=3m
Q: Open tank (4.5 m long. 2.5 m height and 3 m wide) contains liquid (S-0.75) to height 1. m. If this…
A:
Q: A fish tank that contains 60 cm high water is moved in the cabin of elevator. Determine the pressure…
A: Given that : Water level in the tank = H = 60cm = 0.6m Density of water = 1000kg/m3 Gravity = g =…
Q: A room in the lower level of a cruise ship has a 40-cm-diameter circular window. If the midpoint of…
A: Given data: The diameter of the circular window, d = 40 cm. The midpoint of the window, hc = 2 m.…
Q: Q.1: An inclined, circular gate with water on one side is shown in the figure below. Determine the…
A:
Q: AU-shaped tube is partially filled with a liquid of known density p1. At the right end, another…
A:
Q: Consider a body of arbitrary shape. If the pressure distribution over thesurface of the body is…
A: Consider small elementary section on a arbitrary shape of a body, Here, PT is the pressure…
Q: A person blows fromthe oil side of the U-tube until the contact surface of the two fluids moves to…
A: Solution:
Q: Determine the barometric pressure
A:
Q: A bucket of water is being placed in a moving lift that goes upwards at a constant speed of 1 m/s.…
A:
Q: the gauge pressure of the air in the tank is shown in Fig. p3-49 is measured to be 65 kPa. Determine…
A:
Q: 47. Determine the absolute pressure required to push the column of water to 2m height. Assume…
A:
Q: the steel is 9000 psi, determine the maximum safe pressure for the tank. (b) Compu the corresponding…
A:
he gage pressure of the air in the tank shown in the figure is measured to be 65 kPa. Determine the differential height h of the mercury column.
Trending now
This is a popular solution!
Step by step
Solved in 3 steps with 2 images
- One side of the container has a 03-m square door that is hinged at its top edge. If the container is filled with water, determine the smallest force F that must be applied to the bottom edge of the door to keep it closed.Q 3 :A plate ABCD hangs in water from one of its comers (as shown in the figure). Determine the total pressure on the plate and the position of the center pressure? Water Surface 10 m 5m 7 B 612 C _5 m OA water pipe is connected to a double-U manometer as shown in the figure below. The dimensions of the system is displayed in the figure. The local atmospheric pressure is 14.7 psia. Determine the absolute pressure at the center of the water pipe. (The water density is ; The specific gravity (SG) of oil is 0.80; The SG 1000??/?3of mercury is 13.6.)
- The gage pressure of the air in the tank shown in the beside Figure is measured to be 65 kPa. Determine the differential height h of the mercury column. 65 kPa Air T 30 cm 75 cm Water h Oll SG-0.72 Mercury SG-13.6 47cm2. The tank shown contains alcohol (SG=D0.78) and covered by a circular plug 1.2 m in diameter. Calculate the hydrostatic force F Am acting on the plug and its center of pressure. 8m 1.2 m 3. The gate as shown is 3 m normal to the page. It keeps the two liquids from mixing with each onough clocuro botween the oil andA multifluid container is connected to a U-tube, as shown in the figure. For the given specific gravitles and fluid column heights. determine the gage pressure at A. Also determine the height of a mercury column that would create the same pressure at A. The column heighth of oil is 86 cm. The specific gravitles are 1.26 for glycerin and 0.90 for oll. We take the standard density of water to be Pw=1000 kg/m³ and the specific gravity of mercury to be 13.6. h 35 cm 18 cm Į Oil SG-0.90 Water Glycerin SG-1.26 90 cm 15 cm The gage pressure at A is kPa. The height of a mercury column that would create the same pressure at A is cm.
- A closed cylindrical tank 2m in diameter and 8m deep with axis vertical contains 6m deep of oil (sp. Gr = 0.8). The air above the liquid surface has a pressure of 0.8kg/cm². Determine the total normal force acting on the wall at its location from the bottom of the tank.A cylinder glass tubing is 4.4ft long with one end closed and is immersed vertically with the open end down into a tank of cleaning solvent (S.G = 0.83) until only 4.8 inches of it remains above the liquid surface. Determine the fluid rise inside the tube. (Patm = 14.7 psi) Do not write the unit. You will only input the numerical answer in the space provided. Unit of the Correct Answer: in Decimal Places required in the final answer: 2The submerged sector gate AB shown in the figure is 1/9 of a circle of radius 4 m. The length of the gate is 10 m. Determine the horizontal component of water pressure acting on the gate. B Water radius 536.078 kN 113.001 kN 208.119 kN 162.328 kN 448.161 kN 262.874 kN 591.263 kN 89.207 kN 324.260 kN 490.984 kN 392.273 kN 127.908 kN
- The pressure difference between an oil pipe and water pipe is measured by a double-fluid manometer, as shown in the figure. For the given fluid heights and specific gravities, calculate the pressure difference AP= PB - PA. The specific gravities are 13.5 for mercury, 1.26 for glycerin, and 0.88 for oil. Take the standard density of water to be pw=1000 kg/m³. The heighth of mercury in the manometer is 25 cm. Water SG=1.0 Mercury SG= 13.5 55 cm The pressure difference is Glycerin SG=1,26 10 cm 12 cm Oil SG=0.88 kPa.A 98.43ft vertical column of fluid (density is 1878 kg/m3) is located where is 31.66ft/sec2. determine the pressure at the base of the column in kPa.The pressure at point m in the figure shown was increased from kPa. This causes the top level of mercury to move 28 mm in the sloping tube. What is the inclination (angle ). Ans. 85 kPa to 125 34.932 0 X C water mercury