Determine the magnitude of the force on the inclined gate 1.5m by 0.5m shown in the figure. The tank of water is completely closed and the pressure gage at the bottom of the tank reads 90,000 N/m2. Use 9800 N/cubic meter for water?

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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Determine the magnitude of the force on the inclined gate 1.5m by 0.5m shown in the figure. The tank of water is completely closed and the pressure gage at the bottom of the tank reads 90,000 N/m2. Use 9800 N/cubic meter for water?

Ans: 48022.5N

3 m
Water
Pog
0.75 sin 60°
0.5 m
2 m
60°
P2 = 90,000 Pa
%3D
2.65 m
1.5 m
Transcribed Image Text:3 m Water Pog 0.75 sin 60° 0.5 m 2 m 60° P2 = 90,000 Pa %3D 2.65 m 1.5 m
PROBLEM 5
Determine the magnitude of the force on the
inclined gate 1.5m by 0.5m shown in the figure. The
tank of water is completely closed and the pressure
gage at the bottom of the tank reads 90,000 N/m2.
Use 9800 N/cubic meter for water?
Ans: 48022.5N
Water
3 m
Pon
0.75 sin 60°
0.5 m
2 m
60°
P2 = 90,000 Pa
5
DMASI
LANG
FLUID MECHANICS - PROBLEM SET 2
2.65 m
1.5 m
Transcribed Image Text:PROBLEM 5 Determine the magnitude of the force on the inclined gate 1.5m by 0.5m shown in the figure. The tank of water is completely closed and the pressure gage at the bottom of the tank reads 90,000 N/m2. Use 9800 N/cubic meter for water? Ans: 48022.5N Water 3 m Pon 0.75 sin 60° 0.5 m 2 m 60° P2 = 90,000 Pa 5 DMASI LANG FLUID MECHANICS - PROBLEM SET 2 2.65 m 1.5 m
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