2. Determine the force F to hold the 5-m wide circular gate in position 80 8...
Calculate the force required to hold the gate, which is pinned at A, in the position shown. The gate is 1m wide. 2. Coleulate the foree re^vired to hold he gt, hieh is pinn.เช่ A. in the position shown . TheSode is Ait 4,0 e: 40 Ans. F 100.4u
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
2. (45 pts) Consider the 10-meter wide, quarter-circular gate shown below. Take R-3 ft and the specific weight of the water as y 62.4 lb/ft3. The gate is of negligible weight. The pressure of the air is 10 psi gage. Compute the magnitude of the force Q required to keep the gate in the position shown. Draw an appropriate and clear free body diagram for an alysis. air Hinge water
CEES2223 Final Exam 1261s (7 points) Water is held in position as shown by a 3-m wide by 2 -m.tong gular gate. The gate is hinged at the top and rests on a smooth bottom termine the reaction of the hinge and the reaction from the bottom ot the tank CEES2223 Final Exam 1261s (7 points) Water is held in position as shown by a 3-m wide by 2 -m.tong gular gate. The gate is hinged at the top and...
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
A 6-m-hight, 4-m-wide rectangular gate is located at the end of an open freshwater tank. The gate is hinged at the top and held in place by a force F. The pressure is proportional to the depth of the water and the average pressure p_avg exerted on the gate by the water is: where deltap is the difference in pressure between the bottom of the gate (P_1) and the surface (p_0). The resulting force of the water on the gate...
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
A 1-m-diameter cylindrical mass, M, is connected to a 2-m wide rectangular gate as shown in the figure. The gate is to open when the water level, h, drops below 2.0 m. Determine the required value for M. Neglect friction at the gate hinge and the pulley. 4m Water -1-m- diameter im
A rectangular gate 1.2 m wide and 3.5 m long is inclined 35°from a smooth wall. The gate is hinged at point B, and rests against a smooth wall at A which is 2.7 m below the water surface. a. Compute the force on the gate due to seawater pressure (s.g. = 1.03). b. Determine the location of the force from the center of gravity of the gate. c. determine the horizontal force P exerted by the wall at point...
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)...