A rectangular tank with a square base and open at top and left side designed to manufacture from sheet steel as shown in figure 2. There is a circular hatch onto bottom with diameter of 0.6 m as shown. On the left side of the tank there is a rectangular door with the 0.85m width, which is held by a force F, at the top of door, also a hinge at the point A, controls it (as shown). The tank filled with the oil of density 820 kgm3. Calculate the following: • The hydrostatic force subjected to the hatch. • The hydrostatic force acting to the side door. • The reaction force RA at the bottom of the hinge. 1.8m 2.5m 0.6m diameter Figure 2. Oil tank
A rectangular tank with a square base and open at top and left side designed to manufacture from sheet steel as shown in figure 2. There is a circular hatch onto bottom with diameter of 0.6 m as shown. On the left side of the tank there is a rectangular door with the 0.85m width, which is held by a force F, at the top of door, also a hinge at the point A, controls it (as shown). The tank filled with the oil of density 820 kgm3. Calculate the following: • The hydrostatic force subjected to the hatch. • The hydrostatic force acting to the side door. • The reaction force RA at the bottom of the hinge. 1.8m 2.5m 0.6m diameter Figure 2. Oil tank
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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Hi please show calculations or diagrams if required thank you
![Task 2
4&P
A rectangular tank with a square base and open at top and left side designed to manufacture from
sheet steel as shown in figure 2. There is a circular hatch onto bottom with diameter of 0.6 m as
shown. On the left side of the tank there is a rectangular door with the 0.85m width, which is held
by a force F, at the top of door, also a hinge at the point A, controls it (as shown). The tank filled
with the oil of density 820 kgm3.
Calculate the following:
• The hydrostatic force subjected to the hatch.
• The hydrostatic force acting to the side door.
• The reaction force RA at the bottom of the hinge.
Oil
1.8m
2.5m
0.6m
diameter
Figure 2. Oil tank](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F911bff2f-488e-4690-a7ab-bc24706cd7ca%2Ffbface95-617a-4ce7-a2cd-a83e3ba06cab%2Fyx78ugp_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Task 2
4&P
A rectangular tank with a square base and open at top and left side designed to manufacture from
sheet steel as shown in figure 2. There is a circular hatch onto bottom with diameter of 0.6 m as
shown. On the left side of the tank there is a rectangular door with the 0.85m width, which is held
by a force F, at the top of door, also a hinge at the point A, controls it (as shown). The tank filled
with the oil of density 820 kgm3.
Calculate the following:
• The hydrostatic force subjected to the hatch.
• The hydrostatic force acting to the side door.
• The reaction force RA at the bottom of the hinge.
Oil
1.8m
2.5m
0.6m
diameter
Figure 2. Oil tank
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