Note: Solve the problem as stated below. Draw the FBD. PROBLEMS Figure: 1. In the figure shown, a vertical triangular gate submerged in a certain liquid with s.g. = 0,85. If the eccentricity is 150 mm determine the distance between the top of the gate and the liquid surface, L.S. -== L.S. d -1.2 m 2. In Prob. 1, determine the magnitude and location of the hydrostatic force on the gate. 2.7 m
Note: Solve the problem as stated below. Draw the FBD. PROBLEMS Figure: 1. In the figure shown, a vertical triangular gate submerged in a certain liquid with s.g. = 0,85. If the eccentricity is 150 mm determine the distance between the top of the gate and the liquid surface, L.S. -== L.S. d -1.2 m 2. In Prob. 1, determine the magnitude and location of the hydrostatic force on the gate. 2.7 m
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 8.141RP: The thin-walled cylindrical can with a spherical dimple weighs 0.2 lb. Determine the force P...
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![Note: Solve the problem as stated below. Draw the FBD.
PROBLEMS
Figure:
1. In the figure shown, a vertical triangular
gate submerged in a certain liquid with
s.g. = 0,85. If the eccentricity is 150 mm
determine the distance between the top
of the gate and the liquid surface, L.S.
L.S.
d.
1.2 m
2. In Prob. 1, determine the magnitude and
location of the hydrostatic force on the
gate.
2.7 m
Il](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F61867f9f-15fe-42c1-8bde-55374a2d8d7a%2F03aa9bd0-392d-4a7f-8d59-afc65ca1a0ea%2F6d8qp6l_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Note: Solve the problem as stated below. Draw the FBD.
PROBLEMS
Figure:
1. In the figure shown, a vertical triangular
gate submerged in a certain liquid with
s.g. = 0,85. If the eccentricity is 150 mm
determine the distance between the top
of the gate and the liquid surface, L.S.
L.S.
d.
1.2 m
2. In Prob. 1, determine the magnitude and
location of the hydrostatic force on the
gate.
2.7 m
Il
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