Part 1The storage tank contains lubricating oil of specific gravity 0.86 In one inclined side of the tank,there is a 0.48 m diameter circular inspection door, mounted on a horizontal shaft along the centreline of the gate. The oil level in the tank rests 8.8 m above the mounted shaft. (Please refer table01 for relevant SG, D and h values).Describe the hydrostatic force and centre of pressure with the aid of a free body diagram of theinspection door.Calculate the magnitude of the hydrostatic force and locate the centreof pressure.45°Estimate the moment that would have to be applied to the shaft toopen the gate.StopBIf the oil level raised by 2 m from the current level, calculate the newmoment required to open the gate.Figure 01

The problem involves a storage tank filled with lubricating oil. The tank has a circular inspection…

Answered: Part 1 The storage tank contains…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

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Compute the depth of the center of pressure for a vertical triangular gate having a height "h" and a base width "b" and submerged in a liquid with its vertex at the liquid surface. If the vertex is 1m below the surface, determine the location of the center of pressure from the surface if b =5m and d = 4m. And Compute also the total hydrostatic force on one side of the gate. L.S. hcp h d cg cp e b
Calculate
Using the piezometric concept, compute the magnitude of the resultant force on the indicated area 0.2 m and the location of the center of pressure. Note that Semicircular hatch the tank is now sealed at the top with a pressure of 0.25 m 13.8 kPa (gage) above the fluid. 0.66 m 508-mm radius Ethylene glycol sg = 1.10 0.25 m 30° Tank is symmetrical
12. Examine Figure 1. Given that a=7.5 in. and b=12 in., what is the height of the water in the ight hand vessel? Density ofthe CCI4 is 1.6 g/cm³. Manometer oil,p = 0.7g/cm3 Open to atmosphere Vapor 6.6 psig Liquid 10 in. Figure CS CamScanner ile tarandı
2. of 1.0 Two oil tanks are connected to each other through a manometer. If the difference between the mercury levels in the two arms is 32 inches, determine the pressure difference between the two tanks. The specific gravities for oil and mercury are 0.72 and 13.6, respectively. 3. A 3 rectangular gate is hinged at the top edge A and is restrained by a fixed ridge at B. Determine the hydrostatic force exerted on the gate by the 5 m high water and the location of the line of action of the force Oil P₁ 10 in 32 in 2m Oil P₂ Mercury
Calculate the hydrostatic force and components of the semicylindrical protuberance located at the bottom of the tank. It has a length of 9 feet inward.Do it as a new job.
01: The wide of water tank is 4 m into the paper as shown in Figure 1. Neglecting atmospheric pressure, compute the hydrostatic (a) horizontal force, (b) vertical force, and (c) resultant force on quarter-circle panel BC and its line of action. Take water density = 1000 kg/m³. (50 Marks) 02: A 5-m-diameter vertical cylindrical milk tank rotates at a constant rate of 15 rpm as shown in Figure 2. If the pressure at the cente: of the bottom surface is 150 kPa, determine the pressure at the edge of the bottom surface of the tank. Take the density of the milk to be 1030 kg/m. (1) (50 Marks) المصبوحة فوليا به CS CamScanner Figure 2 Free surface ho Water 3 m B 3 m 7 m و دا کورس اول شهر 2 r R g Figure 1 C Good Luck
M1 U5: Use the general solution in determining the total hydrostatic force acting on the submerged curved surface. Please provide the complete UNITS ANALYSIS, USE OF CORRECT CONVERSION RATIOS and DIAGRAMS in your hand-written solution. INCOMPLETE/NO SOLUTION means NO CREDIT. Encode your FINAL answer in the space provided after each question. A curved surface is formed as a quarter of a circular cylinder with R = 0.75 m as shown. The surface is w 3.55 m wide. Water stands to the right of the curved surface to depth H = 0.60 m. seawater 0.60 m (SG = 1.03) %3D 0.75 m Determine the magnitude and direction of the horizontal component of the hydrostatic force (in N) acting on the gate. Indicate the direction by putting an R for right and L for left after your numerical answer. Your answer
H-W 2 Q1/ Compute the horizontal and vertical components of the hydrostatic force on the quarter-circle panel at the bottom of the water tank in Fig. Water 2m
View Image. Show complete and detailed solution. Please write legibly. Answer: 64.3 degrees
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