The lower half of the 10 m high tank is water ( =1000 kg/m3 ) and the upper half has a density of 850 kg/m3 the one which... filled with oil. What is the pressure difference between the top and bottom of the tank?
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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.A vertical, rectangular gate with water on one side in shown in figure. Determine to total resultant force acting on the gate and the location of the center pressure. - 1 attachment - 3 m 1.2 m tdy 4.2y VAVIAYINIVNNNIN VNAY2. 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 and
- What force, F, must be applied to the S-shaped gate to keep it closed? The gate is 1 m wide andthe radius of curvature of each part is 1 m. The liquid is water.The perpendicular dimension of the cylindrical surface abcde in the figure to the plane of the figure is 6 m, and the radius of the circular surfaces is R=2.5 m. According to this; a)Determine the horizontal and vertical components of the pressure force exerted by water on the cylindrical surface in abcde.(Fhorizontal?Fvertical?) b)Determine the vertical distance from the point of action of the horizontal component of the pressure force acting on the cylindrical surface of abcde to the point e, and the horizontal distance from the point of action of the vertical component of the pressure force to the line ace.(Fhorizontal?Fvertical?)An inclined circular gate with water on one side is shown in the figure. Determine the resultant force acting on the gate and the location of the center of pressure.
- In the Fig. is shown the cross-section of the tank full of water under pressure. The length of the tank is 2.5 m. An empty cylinder lies along the length of the tank on one of its corners as shown. Find the horizontal and vertical components of the force acting on the curved surface LMN of the cylinderA water tank, open at the top, consists of a right circular cylinder and a right circular cone, as shown. If the altitude of the cylinder is three times its radius, and the altitude of the cone is two times the same radius, find the altitude of the cylinder (1 gal=231 cu. in.).The liquid inside the tank on the left side of the 2000 mm wide rectangular shaped lid hinged from the O point, which is seen in the middle of the figure, is under pressure of -22.50 kPa, and on the right side there is oil with a density of d= 0.80. Find the intensity and direction of the force that will act on the O point in order for this cover to remain in balance (Y(liquid)=0.9 kg/lt, Ig=bh^3/12). (Hava=air, Sıvı=liquid, yağ=oil)
- Open tank (4 m long, 3 m height and 3 m wide) contains liquid (S-0.8) to height 1.5 m. If this tank is accelerated along its length on a horizontal truck at a constant value of 2.5 m/s², determine pressure at the bottom of the tank at front and rear edges (in kN/m?). (take y-9.8 kN/m³ for water)(b) Consider two identical water tanks (20 m x 10 m x 10 m) filled with water. The depth of water in the first tank is 8 m and it is stationary. The depth of water in the second tank is 6 m and it is moving vertically downward with a constant acceleration of 3.3 m/s?. Which tank will have a higher pressure at the bottom? Now, the first tank is moving horizontally in the direction of its length with a constant acceleration of 2.4 m/s?. Determine the shape of the free surface and the total force on the base and vertical faces of this tank. What will happen if these tanks are completely filled with water?An a tank filled with mercury (density 13000 kg/m3)at depth 10 m , the force actining at the hatch with diameter 0.75 m (located at the bottom tank) is (Taken gravitational acceleration as 10 m/s2):