Q: A (3.6 m) square gate provided in an oil tank is hinged at its top edge as shown in Figure. The tank contains gasoline (s.g. 0.7) up to a height of (1.8 m) above the top edge of the plate. The space above the oil is subjected to a negative pressure of (8250 pa). Determine the force F to be applied at the lower edge to open the gate. p= - 8250 pa Air 18 m s.g=0.7 Hinge 950
Q: A (3.6 m) square gate provided in an oil tank is hinged at its top edge as shown in Figure. The tank contains gasoline (s.g. 0.7) up to a height of (1.8 m) above the top edge of the plate. The space above the oil is subjected to a negative pressure of (8250 pa). Determine the force F to be applied at the lower edge to open the gate. p= - 8250 pa Air 18 m s.g=0.7 Hinge 950
International Edition---engineering Mechanics: Statics, 4th Edition
4th Edition
ISBN:9781305501607
Author:Andrew Pytel And Jaan Kiusalaas
Publisher:Andrew Pytel And Jaan Kiusalaas
Chapter8: Centroids And Distributed Loads
Section: Chapter Questions
Problem 8.90P: The hemispherical glass bowl is filled with water. Find the location y of the center of gravity of...
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![نقطة واحدة
*:Q 11
Q: A (3.6 m) square gate provided in an oil tank is hinged at its
top edge as shown in Figure. The tank contains gasoline (s.g.
0.7) up to a height of (1.8 m) above the top edge of the plate.
The space above the oil is subjected to a negative pressure of
(8250 pa). Determine the force F to be applied at the lower
edge to open the gate.
p= - 8250 pa
1.8 m
s.g=0.7
Hinge
950
144.5 KN1
14.45 KN1
144.5 KN!
14.45 KN! O](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F84dc46cb-b204-4fb4-9144-ad425b874a96%2Fa86051ce-d67f-4951-94bf-181992f026c8%2Fkz5p4y8_processed.jpeg&w=3840&q=75)
Transcribed Image Text:نقطة واحدة
*:Q 11
Q: A (3.6 m) square gate provided in an oil tank is hinged at its
top edge as shown in Figure. The tank contains gasoline (s.g.
0.7) up to a height of (1.8 m) above the top edge of the plate.
The space above the oil is subjected to a negative pressure of
(8250 pa). Determine the force F to be applied at the lower
edge to open the gate.
p= - 8250 pa
1.8 m
s.g=0.7
Hinge
950
144.5 KN1
14.45 KN1
144.5 KN!
14.45 KN! O
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