Determine the horizontal and vertical components of the liquid pressure acting on the semicylindrical gate ABC, as shown in the figure. The width into the paper is 1 m. Liquid (1g = 0.88) 4 m 3.2 m 1 m to
Q: 8.122 The 12-ft wide quarter-circular gate AB is hinged at A. Determine the contact force between…
A: The resultant force acting on the point B can be calculated using the formula given below- F=Fx2+Fy2…
Q: Determine the hydrostatic force acting on the submerged plate (2 m long and 6 m wide) and the…
A: Given: ρ=1000 kg/m3g=9.81 m/s2l=2m b= 6 m
Q: Determine the pressure difference
A: Need to Determine the pressure difference
Q: Two plates oriented as shown are placed in water. Determine the rise of water between the plates,…
A: according to the given details in the question.
Q: Using the figure Determine the reaction force on the smooth support at B due to the fluid pressure…
A:
Q: Milk with a density of 1020 kg/m3 is transported on a level road in a 9-m-long, 3-m-diameter…
A: Given that,
Q: The distance between the centers of the two arms of a U-tube open to the atmosphere is 30 cm, and…
A: Given data: ω=4.2 rad/sR=0.3 m Need to determine the elevation difference between the fluid surfaces…
Q: 2. If the bulk modulus for water at 70°F is 319 , determine the change in pressure required to in…
A:
Q: Determine the horizontal and vertical components of the liquid pressure acting on the…
A:
Q: 3. The cylindrical diving bell is open at the bottom and closed at the top, as shown. It is lowered…
A:
Q: the mercury 2. Mercury is poured into the tube in the figure until occupies 375 mm of the tube's…
A: Consider the length of the mercury above the horizontal surface.x1 + x2 =375 mm - 160 mm x1 = 215…
Q: Determine the pivot location 'y' of the square gate so that it will rotate open when the liquid…
A: find 'y' so that the pivot will rotate
Q: Describe the force exerted by the oil on the gate What does the center of pressure mean? And why is…
A: Height of the gate, h= 2 m Width of the gate, b= 3 m Specific gravity of the oil, SG= 0.875 Distance…
Q: 2. Mercury is poured into the tube in the figure until the mercury occupies 375 mm of the tube's…
A: Given dataMercury is poured in to a uniform diameter tubeMercury occupies 375 mm of the tube's…
Q: Determine the pressure difference between the inside and outside of the 0.14 mm diameter air bublle…
A: Given data, σ = 0.136 N/m Diameter or bubble , d= 0.14 mm = 0.00014 m Need to find pressure…
Q: w agua 1.00m
A:
Q: The 8.8-mm-diameter spherical balloon is filled with helium that is at a temperature of 28∘C and an…
A: As per given question We have to determine weight
Q: The submerged sector gate AB shown in the figure is 1/9 of a circle of radius 4 m. The length of the…
A:
Q: What are the pressures at the A(conjunction of water and oil), B (middle of water), C (bottom of the…
A:
Q: An open settling tank shown in the figure contains a liquid suspension. Determine the resultant…
A: Consider the small element of dy along the y-direction in the profile. θ=600
Q: A U-shaped tube is partially filled with water. Oil is then poured into the left arm until the…
A:
Q: The tank in Fig. contains benzene and is pressurizedto 200 kPa (gage) in the air gap. Determine the…
A: Given Benzene pressure = 200 kPa To find The vertical hydrostatic force
Q: A 2-m-high, 3-m-wide rectangular gate is hinged at the top edge at A and is restrained by a fixed…
A: Given data Dimensions of the gate are 2 m x 3 m The container is filled with Engine oil 3 m…
Q: 2. A U-tube is made up of two capillaries with bores of 0.0039 ft and 0.0078 ft. A liquid with a…
A:
Q: Determine the capillary rise of the water in the glass tube of diameter 0.68cm, which is immersed…
A: In capillary rise and fall, the main cause is the dominance of one force over another. If adhesion…
Q: Q2) A cylindrical tank of (1.5 m) diameter and height (0.75) m has hemispherical dome Fig. The tank…
A: given relative density = 0.84 (oil) pressure = 50Kpa 4 bolts
Q: Determine the minimum size of glass tube that can be used to... Determine the minimum size of glass…
A: Given data : Capillary rise (h)=5 mm Surface tension σ=0.073 N/m Density of water ρ=1000 kg/m3 Angle…
Q: Determine the pressure (in kPa) at the bottom of an open tank if it contains layers of 3 m of oil…
A: Given, Heigh of oil in the tank,ho=3mDensity of oil,ρo=0.79×1000=790kg/m3Height of mercury in the…
Q: ersed rectangular plate as shown in the figure. Free water surface Im b-3 m
A: Solution is attached below:
Q: The pressure of the air at A within the closed tank is 200 kPa. Determine the resultant force acting…
A:
Q: If the surface tension of water in contact with air is 0.075 N/m, the correction (in mm) need to be…
A:
Q: With the aid of the diagram, define the pascal law to the triangular prism which consists a fluid at…
A:
Q: The submerged sector gate AB shown in the figure is 1/5 of a circle of radius 4 m. The length of the…
A:
Q: Determine the pressure difference between the inside and outside of the 0.1 mm diameter air bublle…
A:
Q: Determine the pressure at points A and B in the figure shown if the density of mercury is 13 590.0…
A: It is required to determine pressure at point A and B
Q: Consider a frictionless, massless and leak-proof plug blocking a rectangular hole of dimensions 2Rx…
A:
Q: On editnew&wdNe A circular plate 1.2 m diameter is placed vertically in water such that the centre…
A: Given: Diameter d=1.2 m Distance of centroid from free surface, x¯=2.5 To Find: Total pressure on…
Q: Balloons are often filled with helium gas because it weights only about one seventh of what air…
A: The volume of the balloon can be determined as,
Q: The submerged sector gate AB shown in the figure is 1/9 of a circle of radius 4 m. The length of the…
A:
Q: Determine the pressure at the interface of liquids of an open tank containing 3 m of oil (SG=0.79)…
A: Given: Oil: S>g = 0.79 h = 3 m Mercury: S.G = 13.6 h = 10 cm = 0.1 m
Q: 1. The rectangular gate below is 3 m long by 4 m wide (into the page). Obtain the force magnitude Q…
A: The data given is, Area of the rectangular gate, A=3×4=12 m2 The specific weight of water, γw=9.81…
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: An open container is filled with water to a depth of three metres and then with oil with a density…
A: For solution refer below images.
Q: Determine the total force in kN on an isosceles triangular plate of base 5 m and altitude 5 m when…
A: Given: An isosceles triangular plate = base 5 m and altitude 5 m Plate is immersed vertically in…
Q: An inclined rectangular gate with water on one side is shown in the figure. The gate has dimensions…
A: The area of the gate is The density of water is
Q: Determine the horizontal and vertical components of the liquid pressure acting on the…
A:
Q: A 2-m-high, 3-m-wide rectangular gate is hinged at the top edge at A and is restrained by a fixed…
A: As per the Bartleby answering guidelines we are supposed to answer first 3 subparts of question.…
Q: Luon editnew&wdNe A circular plate 1.2 m diameter is placed vertically in water such that the centre…
A:
Q: The conical-spherical dumbbell (made from a cone and a hemisphere) shown in the figure is floating…
A: Given: The specific gravity of the liquid is Spg = 1.65. The radius of the cone and the hemisphere…
Step by step
Solved in 2 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.An open settling tank shown in the figure contains a liquid suspension. Determine the resultant force acting on the gate and its line of action if the liquid density is 850 kg/m3. The gate is parabolic as sketched, looking straight at the gateDetermine the horizontal and vertical components of the liquid pressure acting on the semicylindrical gate ABC, as shown in the figure. The width into the paper is 1 m. 1 m Liquid ( s.g. = 0.88 ) 4 m B + 3.8 m 1 m what is the resultant force due to liquid acting on that gate 幸
- Consider the hemispherical gate attached to a cylindrical buoy as shown in the figure. The thickness of and weight of the cable connecting the buoy and the gate are negligible. Which of the following is the volume above the hemispherical gate that is needed in the calculation of the vertical component of the resultant hydrostatic force acting on it? 4m Y? 3 m Select one: O a. cylinder up to the liquid surface O b. cylinder up to the liquid surface minus the hemisphere O c. cylinder up to the bottom surface of the buoy O d. cylinder up to the bottom surface of the buoy minus the hemisphereThe tank in Fig is 120 cm long into the paper. Determinethe horizontal and vertical hydrostatic forces on thequarter-circle panel AB . The fl uid is water at 20 ° C. Neglectatmospheric pressure.Determine the horizontal and vertical components of the liquid pressure acting on the semicylindrical gate ABC, as shown in the figure. The width into the paper is 1 m.
- 2. 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 andThe 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.A closed tank whose bottom is 18 inches in diameter is filled with three liquids: 4 inches of carbon tetrachloride (SG=1.59), 2 inches of water and 12 inches of syrup (SG=1.31). The air chamber in the tank is pressurized at 1296 psf. d. Apply the PANEL EQUATIONS to determine the magnitude, direction and location of the total hydrostatic force acting at the bottom of the tank.
- A factory's pressure tank rests on the upper base of a vertical pipe whose inside diameter is 1 ft. and whose length is 40 ft. The tank is a vertical cylinder surmounted by a cone, and it has a hemispherical base. If the alti-tudes of the cylinder and the cone are respectively 6 ft. and 3 ft. and if all three parts of the tank have an inside diameter of 6 ft., find the volume of water in the tank and pipe when full.The figure below shows a rectangular tank of dimensions ho = 2.5 m and b = 2 m is filled to the brim with a liquid of specific gravity 1.1 (tank is 1 m into plane of figure). The tank is subjected to a horizontal acceleration ax, and 30% of the liquid spills over. Determine the difference in liquid pressures at the lower left-hand corner (Point E) and lower right-hand corner of the tank (Point F). PE-PF= 1. [15.70090597, 16.672095597 Free surface ho Liquid X b Liquid at rest ➡ho kPa. 9 Free surface Liquid b ax Under constant accelerationThe submerged sector gate AB shown in the figure is 1/5 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 radius