A container of fluid has two doors; door 1 is a horizontal door at the bottom, and door 2 inclined at an angle to the horizontal, as shown in figure Q2. Both doors have a squa cross-sectional area; door 1 has an area L x L, and door 2 has an area (2L) x (2L). Th depth of the fluid is ho. a) Find the vertical force on door 1. b) Find the moment due to static pressure on door 1 about its hinge. The hinge is the left of the door, as shown in the figure. c) Find the moment due to static pressure door 2 about its hinge. The hinge is a the left of the door, at a depth ho, as shown in the figure. d) If the moment on door 2 is 4 times larger than the moment on door 1, find h, in terms of L and 8
A container of fluid has two doors; door 1 is a horizontal door at the bottom, and door 2 inclined at an angle to the horizontal, as shown in figure Q2. Both doors have a squa cross-sectional area; door 1 has an area L x L, and door 2 has an area (2L) x (2L). Th depth of the fluid is ho. a) Find the vertical force on door 1. b) Find the moment due to static pressure on door 1 about its hinge. The hinge is the left of the door, as shown in the figure. c) Find the moment due to static pressure door 2 about its hinge. The hinge is a the left of the door, at a depth ho, as shown in the figure. d) If the moment on door 2 is 4 times larger than the moment on door 1, find h, in terms of L and 8
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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
Transcribed Image Text:Question 2
A container of fluid has two doors; door 1 is a horizontal door at the bottom, and door 2 is
inclined at an angle 8 to the horizontal, as shown in figure Q2. Both doors have a square
cross-sectional area; door 1 has an area L x L, and door 2 has an area (2L) x (2L). The
depth of the fluid is ho.
a) Find the vertical force on door 1.
b) Find the moment due to static pressure on door 1 about its hinge. The hinge is at
the left of the door, as shown in the figure.
c) Find the moment due to static pressure door 2 about its hinge. The hinge is at
the left of the door, at a depth ho, as shown in the figure.
d) If the moment on door 2 is 4 times larger than the moment on door 1, find h, in
terms of Land 0
ho
1
L
2
2L
0
Figure Q2: Vat of water with two hinged doors (Question 2).
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