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1. The 100 kg weight on hydraulic lift (area = 0.6 m²) shown in figure. At...
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 )
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...
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...
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...
In the crest gate in a dam shown, surface AB forms the arc of a circle of 3 m radius subtending 5 at the hinge. The gate is 3 m long with water surface at B. Compute the amount and location of the horizontal and vertical components of the total hydrostatic force on AB. Determine also the amount and direction of their resultant. 2. 2 m 3 In the crest gate in a dam shown, surface AB forms the arc...
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.
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...
Gate AB in Figure A2 is a homogeneous mass of 180 kg, 1.2 m wide into the paper, hinged at A, and resting on a smooth bottom at B. All fluids are at 200 C. a) If the moment about the centre of gravity of a submerged plate at an angle e is defined as FYCP = Then show that this moment is given by [5marks] [3 marks b) Draw a diagram with all forces acting on the gate AB...
An elephant (weight 50000 N) sits on the large plate of a hydraulic lift with area 10 m^2. The small plate of the lift has an area of 0.01 m^2. How much force, applied to the small plate, is required to lift the elephant? If I move the small plate a distance of 1 m, how far does the elephant move?
An inclined wall of a large water storage facility is shown below. The wall has a circular gate built into it. The gate rotates about a central shaft and is held closed by stop. For the conditions shown below: a (a) On a neat diagram draw the pressure distribution acting on the circular gate due to the water in the tank. [4 Marks] (b)Determine the magnitude, direction and location of the water force acting on the circular gate. [9 Marks]...