1.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.
We need at least 8 more requests to produce the answer.
2 / 10 have requested this problem solution
The more requests, the faster the answer.
An inclined circular gate controls the flow of water across a
storage structure (see Figure 1). The gate is 1.0
m in diameter with water on one side. Determine:
the total resultant force acting on the gate
the location of the center of pressure
the resisting moment at the pivot or hinge (if located at
the upper edge of the gate).
Question 1 An inclined circular gate controls flow of water across a storage structure (see Figure 1). The gate...
1. The 100 kg weight on hydraulic lift (area = 0.6 m²) shown in figure. At points A, B C and D calculate the pressure. (Ywater=9810 N/m?) Hinge 2. a) Determine the resultant force acting on the inclined circular gate. b) Find the location of center of pressure. c) Calculate the minimum weight of the block that can open the gate. (Assume that gate is weightless) (a=80 cm, water 9810 N/m) 3. The length of submerged gate AB is 5...
a) Determine the resultant force acting on the inclined circular gate.
b) Find the location of center of pressure.
c) Calculate the minimum weight of the block that can open the gate. (Assume that gate is
weightless)
(a=60 cm, γwater=9810 N/m3
)
Solve the following A vertical rectangular surface has a base of 1.2 m and a height of 3 m. If the center of pressure is o.150 m below the center of gravity, how far is the base below the liquid surface 1. h: ? o. 150 m 1-12 t.2 2. A circular gate 1.50 m in diameter is inclined at an angle of 45 Sea water stands on one side of the gate to a height of 10 m above...
11. Determine ddistance of the hydrostatic force from hinge 11. SMTKN 81.757 kN 12. Compute weight "w", fastened to the center of the gate, is necessary barely to keep the gate from opening. What will be the resultant reaction at the hinge 13. SITUATIONS A cylindrical log having a diameter of 2m and a length of 4m is placed in the position shown in figure below. Sp. Gr. of ol is 0.8. Determine Vertical component of the force acting on...
5000 kg A rectangular gate 5 m by 2 m is hinged at its based and inclined at 60° to the horizontal as shown in below figure. To keep the gate in a stable position, a counter weight of 5000 kgf is attached at the upper end of the gate as shown in the figure. (Note = Neglect the weight of the gate) Hence 1 kgf = 9.81 N a) Draw the free body diagram for the gate b) Draw...
What is the resultant hydrostatic force on the gate?
What is the distance of the line of action (or the center of
pressure) of the resultant hydrostatic from the shaft?
If the weight of the gate is assumed negligible, what is the
magnitude of the force
based on problem 2.49 in text A semicircular gate is installed in the side of water storage reservoir that is at angle of 0=60 reservoir. The depth of water in the tank is H...
Example The 4-m-diameter circular gate of the- figure is located in the inclined wall of a large reservoir containing water (y 9.80 kN/m3 gp along its horizontal diameter, and the water depth is 10 m at the shaft. 60° ). The gate is mounted on a shaft O Determine: Cb) the magnitude and location of the resultant A Center of pressure force exerted on the gate by the water the moment that would have to be applied to the shaft...
Given the length Lis Pm, and height His Im, determine the hydrostatic Force on gate {F}, Location of the center of gravity at the inclined surface(y bar) {y}, location of the center of gravity from the water surface (vertical, h bar) {h}, Location of hydrostatic force from the water surface (inclined) {ycp), and Force {P} necessary to just start opening the ſm-wide gate. Neglect the weight of the gate. Water unit weight 911. N/m Hing 2 m-wide gate H (m)...
3. The inclined surface shown in Figure below is hinged along edge A. The surface is 5 m wide. a. Determine the resultant force, Fr, of the water on the inclined surface. (15 p) b. Find the location of FR (center of pressure) (15 p) D = 2 m 130° L = 4 m Net hydrostatic pressure distribution on gate.