A 1-m-diameter cylindrical mass, M, is connected to a 2-m wide rectangular gate as shown in...
Problem #5 A mechanism that is based on a partially submerged cylinder (diameter / meter) is used to control a rectangular gate (gate width 2 m) shown in the figure below. The gate opens when the water level (h) is reduced below 2.5 m. Determine the mass of the cylinder required to satisfy the conditions discussed (note: neglect the friction form the hinge and pulley). Diameter
A homogeneous, 4-ft-wide, 8-ft-long rectangular gate weighing 800 lb is held in place by a horizontal flexible cable as shown in the figure. Water acts against the gate which is hinged at point A. Friction in the hinge is negligible. Determine the tension in the cable. A homogeneous, 4-ft-wide, 8-ft-long rectangular gate weighing 800 lb is held in place by a horizontal flexible cable as shown in the figure. Water acts against the gate which is hinged at point A....
A homogeneous, 4-ft-wide, 16-ft-long rectangular gate weighing 1000 lb is held in place by a horizontal flexible cable as shown in the Fig. P2.87. Water acts against the gate which is hinged at point A. Friction in the hinge is negligible. Determine the tension in the cable. A homogeneous, 4-ft-wide, 16-ft-long rectangular gate weighing 1000 lb is held in place by a horizontal flexible cable as shown in the Fig. P2.87. Water acts against the gate which is hinged at...
A homogeneous, 4-ft-wide, 14-ft-long rectangular gate weighing 800 lb is held in place by a horizontal flexible cable as shown in the figure below. Water acts against the gate, which is hinged at point A. Friction in the hinge is negligible. Determine the tension in the cable. 30 Keo Cable Water Gate 9.3ft14ft Hinge 1658.04 lb the tolerance is +/-2%
A homogeneous, 4-ft-wide, 6.6 ft-long rectangular gate weighing 800 lb is held in place by a horizontal flexible cable as shown in the figure below. Water acts against the gate, which is hinged at point A. Friction in the hinge is negligible. Determine the tension in the cable. Cable 159 Water Gate 2676.6ft 466.16 Next →
a 3-m wide, 8-m high rectangular gate is located at the end of arectangular passage that is connected to a large open tankfilled with water. The gate is hinged at its bottom and heldclosed by a horizontal force, FH , located at the centerof the gate. The maximum value for FH is 3500kN. (a) Determine the maximum water depth, h, abovethe center of the gate that can exist without the gateopening. (b) Is the answer the same if the 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...
A rectangular gate having a width of 4 ft is located in the sloping side of a tank as shown in the figure below. The gate is hinged along its top edge and is held in position by the force P. Friction at the hinge and the weight of the gate can be neglected. Determine the required value of P. Water 29 ft Hinge Gate 60° lb A rectangular gate having a width of 4 ft is located in the...
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
A homogeneous, 4-ft-wide, 9.7-ft-long rectangular gate weighing 800 lb is held in place by a horizontal flexible cable as shown in the figure below. Water acts against the gate, which is hinged at point A. Friction in the hinge is negligible. Determine the tension in the cable. Assume L1 = 9.7 ft, L2 = 1.4 ft, and 0= 34° Cable Water ins