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Fluids Assignment 3 – Hydrostatic Forces on Plane Surfaces, Quizzes of Fluid Mechanics

University of the Philippines Diliman (UPD)Fluid Mechanics

Fluids Assignment 3 – Hydrostatic Forces on Plane Surfaces Description: Applies concepts from Lecture 3 Includes force and moment calculations on vertical and inclined flat surfaces With detailed computation of center of pressure

Typology: Quizzes

2021/2022

Available from 06/06/2025

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PROBLEM 1
A TANK 5.4 m DEEP AND 2 m WIDE IS LAYERED WITH 2.4 m OF OIL SP. GR. (0.8), 1.8 m OF WATER
AND 1.2 m OF MERCURY. (A) COMPUTE THE HYDROSTATIC FORCE (kN) ON THE UPPER LAYER
OF THE OIL ONLY. (B) COMPUTE THE HYDROSTATIC FORCE OF THE 4.2 m CONTAINING OIL AND
WATER
SOLUTION:
Foil=PcgA
Pcg=(9.81 kN/m3)(0.8)(1.2 m)
Pcg=9.418 kPa
Foil=(9.418 kPa)(2.4 m)(2 m)
Foil=45.204 kN
Fwater=PcgA
Pcg=(9.81 kN/m3)(0.8)(2.4 m) + (9.81 kN/m3)(0.9 m)
Pcg=27.664 kPa
Fwater=(27.664 kPa)(1.8 m)(2 m)
Fwater=99.591 kN
Foil+water=45.204 kN+99.591 kN
Foil+water=144.796 kN
pf3
pf4
pf5

Partial preview of the text

Download Fluids Assignment 3 – Hydrostatic Forces on Plane Surfaces and more Quizzes Fluid Mechanics in PDF only on Docsity!

A TANK 5.4 m DEEP AND 2 m WIDE IS LAYERED WITH 2.4 m OF OIL SP. GR. (0.8) , 1.8 m OF WATER

AND 1.2 m OF MERCURY. (A) COMPUTE THE HYDROSTATIC FORCE (kN) ON THE UPPER LAYER

OF THE OIL ONLY. (B) COMPUTE THE HYDROSTATIC FORCE OF THE 4.2 m CONTAINING OIL AND

WATER

SOLUTION:

F

oil

= P

cg

A

P

cg

= ( 9. 81 kN/m

3

)( 0. 8 )( 1. 2 m)

P

cg

= 9. 418 kPa

F

oil

= ( 9. 418 kPa)( 2. 4 m)( 2 m)

F

oil

= 45. 204 kN

F

water

= P

cg

A

P

cg

= ( 9. 81 kN/m

3

)( 0. 8 )( 2. 4 m) + ( 9. 81 kN/m

3

)( 0. 9 m)

P

cg

= 27. 664 kPa

F

water

= ( 27. 664 kPa)( 1. 8 m)( 2 m)

F

water

= 99. 591 kN

F

oil+water

= 45. 204 kN + 99. 591 kN

F

oil+water

= 144. 796 kN

IN THE FIG. P3.2, STOPPER B WILL BREAK IF THE FORCE ON IT REACHES 40 kN. FIND THE

CRITICAL WATER DEPTH. THE LENGTH OF THE GATE PERPENDICULAR TO THE SKETCH IS 1.5 m

SOLUTION:

M

HINGE

F

  1. 5 + e

F = yh

A

F = ( 9. 81 kN/m

3

)(h

)( 1 m)( 1. 5 m)

F = 14. 715 h

e =

I

g

y̅A

; y̅ = h

e =

( 1. 5 m)( 1 m)

3

h

( 1. 5 m)( 1 m)

12 h

  1. 715 h

12 h

h

= 5. 270 m

h = h

    1. 5 m

h = 5. 770 m

A TRIANGULAR THROUGH AS SHOWN IN FIG. P3.4 CARRIES WATER AT A DEPTH OF 5 m. THE

TROUGH IS HINGED AT A AND IS HELD TOGETHER BY CABLE BC AT THE TOP. THE ANGLE BAC IS

EQUAL TO 110°. (A) COMPUTE THE TOTAL PRESSURE ON SIDE AB PER METER LENGTH. (B)

COMPUTE THE TENSION AT THE CABLE IF IT HAS A SPACING OF 1 m. PERPENDICULAR TO THE

PAPER.

SOLUTION:

F = yh

A

F = ( 9. 81 kN/m

3

)( 2. 5 m) (

sin

m) ( 1 m)

F = 213. 790 kN

e =

I

g

y̅A

e =

( 1 m) (

sin

m)

3

sin(35°)

m

) ( 1 m) (

sin

m)

e = 1. 453 m

∑ M

HINGE

T( 2 m + 5 m) = 213. 790 kN (

sin

m

− e)

T = 88. 746 kN

A CIRCULAR GATE 1.5 m IN DIAMETER IS INCLINED 30 DEGREES WITH THE VERTICAL. IF

CENTER OF THE GATE IS 10 m BELOW THE SEA WATER SURFACE. (A) CALCULATE THE TOTAL

HYDROSTATIC FORCE ON THE GATE. (B) CALCULATE THE DISTANCE OF THE TOTAL FORCE FROM

THE BOTTOM OF THE GATE MEASURED ALONG THE GATE. (C) IF THE GATE IS HINGED AT TOP,

FIND THE NORMAL FORCE APPLIED AT THE BOTTOM REQUIRED TO OPEN THE GATE.

SOLUTION:

REQUIRED:

P

A

− P

B

SOLUTION:

F = ( 9. 81 kN/m

3

)( 1. 03 )( 10 m) (

π( 1. 5 )

2

F = 178. 558 kN

e =

I

g

y̅A

; cos

e =

π

  1. 75 m

4

cos(30°)

π( 1. 5 )

2

e = 0. 012 m

d = 1. 5 m − 0. 75 m − e

d = 1. 5 m − 0. 75 m − 0. 012 m

d = 0. 738 m

M

HINGE

P( 1. 5 ) = F( 0. 75 m + e )

P( 1. 5 ) = ( 178. 558 kN)( 0. 75 m + 0. 012 m )

P = 90. 729 kN