3.32. How far below the water surface should a vertical square, 1.22 m on a side with two sides horizontal, be immersed so that the center of pressure will be 76 mm below the center of gravity? What will be the total force on the square? Ans. 1.01 m, 23.7 kN 3.33. In Fig. 3-26, the 4-ft-diameter cylinder, 4 ft long, is acted upon by water on the left and oil of sp gr 0.800 on the right. Determine (a) the normal force at B if the cylinder weighs 4000 lb and (b) the horizontal force due to oil and water if the oil level drops 1 ft. Ans. 1180 lb, 3100 lb to right B Fig. 3-26 Oil 3.34. For the inclined circular gate 1.0 m in diameter with water on one side, shown in Fig. 3-27, find the total resultant force acting on the gate and the location of the center of pressure. Ans. 14.86 kN, 2.260 m below water surface measured along inclination of gate

3.32. How far below the water surface should a vertical square, 1.22 m on a side with two sides horizontal, be immersed so that the center of pressure will be 76 mm below the center of gravity? What will be the total force on the square? Ans. 1.01 m, 23.7 kN 3.33. In Fig. 3-26, the 4-ft-diameter cylinder, 4 ft long, is acted upon by water on the left and oil of sp gr 0.800 on the right. Determine (a) the normal force at B if the cylinder weighs 4000 lb and (b) the horizontal force due to oil and water if the oil level drops 1 ft. Ans. 1180 lb, 3100 lb to right B Fig. 3-26 Oil 3.34. For the inclined circular gate 1.0 m in diameter with water on one side, shown in Fig. 3-27, find the total resultant force acting on the gate and the location of the center of pressure. Ans. 14.86 kN, 2.260 m below water surface measured along inclination of gate

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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