SS 3-35 An open tank is filled with water to the depth indicated. Atmospheric pressure acts on all outer surfaces of the tank. Determine the magnitude and line of action of the vertical component of the force of the water on the curved part of the tank bottom. Water 10 ft 4 ft 10 ft 12 ft
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A: For solution refer below images.
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A: For solution refer below images.
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Q: 3- The water in a 25-m-deep reservoir is kept inside by a 150-m-wide wall whose cross section is an…
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- 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.4. A 3-m-long and 1-m-wide rectangular gate AB is hinged at point A. The gage reads -110 mmHg while the right tank is filled -110 mmHg with oil. Determine the horizontal hydrostatic force at point B (FB) that is required to be applied to keep the gate Water closed. Assume that the density of water and oil are 1000 kg/m3 and 750 kg/m³, 8 m A respectively. Oil 3 m FB B1. The tank is fined with water. Determine the resultant force acting on the triangular plate A and the location of the center of pressure. Measured from the top of the tank. Solve the problem using the Geothermal Method. (Hibbeler, 2015). 2 m 2m 0.5 m 0.6 m 0.75 m 0.75 m 0.3 m 0.6 m 0.3 m
- A closed box with horizontal base of 6x6 m and height of 2 m is half filled with water. It is given ax =g/2 and ay--g/4. Find the pressure at point b as shown. ax ay А3. An open tank is filled with water. The depth of water is 12m. Assume the density of water to be 1000 kg/m³ and the atmospheric pressure is 101 KN/m². Determine: (i) the gauge pressure of water at the bottom of tank. (2 marks)Determine the pressure difference between points C and D. Take the specific weights to be Benzene: 8640 N/m³, Mercury:133100 N/m³ Kerosene: 7885 N/m?, Water: 9790 N/m2, Air: 12 N/m³. Water Benzene Air D 50 cm 19 cm 30 cm 24 cm $18 cm Mercury Kerosine (answer) Pa
- If the base of the triangles is below the surface of 20 degrees Celsius of water determine the hydrostatic force in kilo- newton on one side of the gate. The base and height of the triangular gate is equal to 4m and 3m respectively.For the tank shown in the Figure, h1 = 4.5m and h3 = 9.2m . Determine the value of h2.A simple U tube manometer is used to measure the pressure of oil flowing in a pipeline. Its left limb is open to the atmosphere and the right limb is connected to the pipe. The center of the pipe is 164 mm below the level of mercury in the left limb. If the difference of mercury level in the two limbs is 232 mm, determine the gauge pressure of the oil in the pipe in Pascal. The specific gravity of the oil & mercury is 1.76 and 13.6 respectively. (i) Density of oil in kg/m3 (ii) Density of mercury in kg/m3 (iii) Height of the Oil in the right limb (in meters of oil) h1 (iv) The gauge pressure of the oil in the pipe in (in Pascal) Answer for part 4
- A simple U tube manometer is used to measure the pressure of oil flowing in a pipeline. Its left limb is open to the atmosphere and the right limb is connected to the pipe. The center of the pipe is 57 mm below the level of mercury in the left limb. If the difference of mercury level in the two limbs is 134 mm, determine the gauge pressure of the oil in the pipe in Pascal. The specific gravity of the oil & mercury is 0.7 and 13.6 respectively. Solution: (1) Density of oil in kg/m3 (ii) Density of mercury in kg/m3 (iii) Height of the Oil in the right limb (in meters of oil) h; (iv) The gauge pressure of the oil in the pipe in (in Pascal)A simple U tube manometer is used to measure the pressure of oil flowing in a pipeline. Its left limb is open to the atmosphere and the right limb is connected to the pipe. The center of the pipe is 161 mm below the level of mercury in the left limb. If the difference of mercury level in the two limbs is 227 mm, determine the gauge pressure of the oil in the pipe in Pascal. The specific gravity of the oil & mercury is 1.79 and 13.6 respectively. Solution: (i) Density of oil in kg/m³ (ii) Density of mercury in kg/m³ (iii) Height of the Oil in the right limb (in meters of oil) h₁ (iv) The gauge pressure of the oil in the pipe in (in Pascal)Q2: The tank is filled with water. Determine the resultant force acting on the triangular plate A and the location of the center of pressure, measured from the top of the tank 03m