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Questions 22 and 23 are based on figure 6 below. 0.85m QUESTION 22 (b) (c) (d) 0.75m 4.9 KN 4.4 kN 9.8 KN 2.1 kN 0.90m B Figure 6 shows a side view of a triangular prism submerged in water. The prism is submerged such that its ABC triangular shape surface is placed in a vertical plane. Length of the prism (into the paper) is 1.2m. Using the details given in the figure above, calculate the horizontal pressure force applied on ABC surface. Figure 6. QUESTION 23 Figure shows a side view of a triangular prism submerged in water. The prism is submerged such that its ABC triangular shape surface is placed in a vertical plane. Length of the prism (into the paper) is 1.2m. Using the details given in figure 6, calculate the buoyancy force (upward)

Questions 22 and 23 are based on figure 6 below. 0.85m QUESTION 22 (b) (c) (d) 0.75m 4.9 KN 4.4 kN 9.8 KN 2.1 kN 0.90m B Figure 6 shows a side view of a triangular prism submerged in water. The prism is submerged such that its ABC triangular shape surface is placed in a vertical plane. Length of the prism (into the paper) is 1.2m. Using the details given in the figure above, calculate the horizontal pressure force applied on ABC surface. Figure 6. QUESTION 23 Figure shows a side view of a triangular prism submerged in water. The prism is submerged such that its ABC triangular shape surface is placed in a vertical plane. Length of the prism (into the paper) is 1.2m. Using the details given in figure 6, calculate the buoyancy force (upward)

Elements Of Electromagnetics
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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I need help in question 23, the answer for question 22 is 4.9kN
Questions 22 and 23 are based on figure 6 below. QUESTION 22 0.85m (a) (b) (c) (d) (a) (b) (c) (d) 4.9 KN 4.4 kN 9.8 KN 2.1 kN 0.75m Figure 6 shows a side view of a triangular prism submerged in water. The prism is submerged such that its ABC triangular shape surface is placed in a vertical plane. Length of the prism (into the paper) is 1.2m. Using the details given in the figure above, calculate the horizontal pressure force applied on ABC surface. 0.90m 9.0 KN 2.8 KN 4.5 KN 0.5 kN B Figure 6. QUESTION 23 Figure shows a side view of a triangular prism submerged in water. The prism is submerged such that its ABC triangular shape surface is placed in a vertical plane. Length of the prism (into the paper) is 1.2m. Using the details given in figure 6, calculate the buoyancy force (upward) applied on the triangular prism.
Transcribed Image Text:Questions 22 and 23 are based on figure 6 below. QUESTION 22 0.85m (a) (b) (c) (d) (a) (b) (c) (d) 4.9 KN 4.4 kN 9.8 KN 2.1 kN 0.75m Figure 6 shows a side view of a triangular prism submerged in water. The prism is submerged such that its ABC triangular shape surface is placed in a vertical plane. Length of the prism (into the paper) is 1.2m. Using the details given in the figure above, calculate the horizontal pressure force applied on ABC surface. 0.90m 9.0 KN 2.8 KN 4.5 KN 0.5 kN B Figure 6. QUESTION 23 Figure shows a side view of a triangular prism submerged in water. The prism is submerged such that its ABC triangular shape surface is placed in a vertical plane. Length of the prism (into the paper) is 1.2m. Using the details given in figure 6, calculate the buoyancy force (upward) applied on the triangular prism.
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