A triangular sluice gate is secured to Hinge A as shown below. The floodgates weigh 100 N and the floodgates are 1 m wide. Find the force F that acts to keep the floodgate as shown.
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A triangular sluice gate is secured to Hinge A as shown below. The floodgates weigh 100 N and the floodgates are 1 m wide. Find the force F that acts to keep the floodgate as shown.
AB, a rectangular (0.6m x 0.9m) sluice gate, blocks a liquid with a ratio of 0.79 The weight of the sluice gate is 300 N and find the force that must be applied to the cable BCD to open the sluice gate.
Help The rectangular homogeneous gate shown below is 3.00 m high * 1.00 m wide and has a frictionless hinge at the bottom. If the fluid on the left side of the gate has a density of 1,600 kg/m^3, the magnitude of the force F (kN) required to keep the gate closed is most nearly: 0 22 24 220 The mean pressure of the field acting on the gate i evaluated at the mean height, and the center of pressure...
8 A rectangular gate is hinged at the water line , the dimension of gate 6mx5m wide. The specific gravity of water 9.81 kN/m3. find the force F to keep the gate closed (Non-anonymous question ) (10 Points) V hinge 6 m water F
1. The gate shown in the figure is 2 meters wide. A. What is the force exerted by water on the left side of the gate? B. What is the force exerted by water on the right side of the gate? C. What horizontal force at B is required to turn the gate about the hinge? hinge CO
Fluid Mechanics Question (Linear momentum) (a) Determine the magnitude of the horizontal component of the anchoring force required to hold in place the 11.1-foot-wide sluice gate shown in the figure below. (b) Find the size of the horizontal component of the anchoring force required to hold in place the sluice gate when it is closed and the depth of water upstream is 5.95 ft. 3.55 ft/s 5.95 ft 4.16 ft lb lb
Figure 1: Configuration of the manometer system Figure 2, a triangular panel (with base B As shown in (b) submerged. When the depth of the water h reaches 6 m, the base of the submerged part of the triangular panel is B 4 m For this case, assume that the water temperature is 10°C and find: (i The resultant force on the panel due to pressure (ii) The location where this force acts. (ii) The force R needed to keep...
2. Determine the force F to hold the 5-m wide circular gate in position 80 8 m Water Hinge
Find the force P needed to just open the 1-m-wide gate of a quarter of circle if the distance of hinge is h under water surface. R= | General expression (20 points) h-3 m below the surface (5 points) h-5 m below the surface (5 points) R Water Finge
For the gate shown in fig determine a) the horizontal force and its location b) the vertical force and its location c) the horizontal force F necessary to keep the gate closed knowing that it weighs 500 N and its center of gravity G is 20 cm to the left of the hinge. The gate measures 1.2 m width, with radius R = 40 cm, S = 6 for the manometric fluid.