The pipe elbow below discharges water at rate of SN/100 (m3/s) into the atmosphere at section 2 . The total volume of the passage between section 1 and 2 is equal to 0.2 m3 and the total mass of the elbow material between section 1 and 2 is equal to 10 x SN (kg). Neglect any friction losses.Calculate the horizontal and vertical forces acting on the elbow. Also calculate the resultant force and angle of force on the elbow. ****SN=21
The pipe elbow below discharges water at rate of SN/100 (m3/s) into the atmosphere at section 2 . The total volume of the passage between section 1 and 2 is equal to 0.2 m3 and the total mass of the elbow material between section 1 and 2 is equal to 10 x SN (kg). Neglect any friction losses.Calculate the horizontal and vertical forces acting on the elbow. Also calculate the resultant force and angle of force on the elbow. ****SN=21
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Question
The pipe elbow below discharges water at rate of SN/100 (m3/s) into the atmosphere at section 2 . The total volume of the passage between section 1 and 2 is equal to 0.2 m3 and the total mass of the elbow material between section 1 and 2 is equal to 10 x SN (kg). Neglect any friction losses.Calculate the horizontal and vertical forces acting on the elbow. Also calculate the resultant force and angle of force on the elbow.
****SN=21
Transcribed Image Text:The pipe elbow below discharges water at rate of SN/100 (m³/s) into the atmosphere at section 2
(where SN is the sum of your student number). The total volume of the passage between section
1 and 2 is equal to 0.2 m³ and the total mass of the elbow material between section 1 and 2 is
equal to 10 x SN (kg). Neglect any friction losses.
Calculate the horizontal and vertical forces acting on the elbow. Also calculate the resultant force
and angle of force on the elbow.
Section
(1) D; = 0.4m
135°
0.5m
Datum
Section
(2)
D2 = 0.2m
Transcribed Image Text:FORMULA SHEET
Q = V*A
P V?
pg 2g
+ Z1
2 +2+ Z2 + h, + hm
pg 2g
F = PxA
EF, = pQ(V2x – V1x)
EF, = pQ(V2y - Vay)
%3D
FR = Fåx + Fhy
FRY
$ = tan
FRX
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