1. In the Figure below the bend is flanged at section 1 (the flange is not shown) and the flow exits to atmosphere at section 2. If V1 = 0.5 m/s, h = 40 cm, pwater = 998 kg/m3, and pmercury 13,550 kg/m³, neglecting the gravity forces and assuming uniform flows at 1 and 2, find: a) V2 using continuity equation; b) p, using manometry equation; c) the force components on the flange bolts in x and y directions using linear momentum equations; d) the friction head loss between 1 and 2 using energy equation. 2.5 cm- 3 m 8 cm Water 0.6 m Mercury

1. In the Figure below the bend is flanged at section 1 (the flange is not shown) and the flow exits to atmosphere at section 2. If V1 = 0.5 m/s, h = 40 cm, pwater = 998 kg/m3, and pmercury 13,550 kg/m³, neglecting the gravity forces and assuming uniform flows at 1 and 2, find: a) V2 using continuity equation; b) p, using manometry equation; c) the force components on the flange bolts in x and y directions using linear momentum equations; d) the friction head loss between 1 and 2 using energy equation. 2.5 cm- 3 m 8 cm Water 0.6 m Mercury

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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1. In the Figure below the bend is flanged at section 1 (the flange is not shown) and the flow
exits to atmosphere at section 2. If V1 = 0.5 m/s, h = 40 cm, pwater = 998 kg/m3, and Pmercury
13,550 kg/m³, neglecting the gravity forces and assuming uniform flows at 1 and 2, find: a) V2
using continuity equation; b) p¡ using manometry equation; c) the force components on the
flange bolts in x and y directions using linear momentum equations; d) the friction head loss
between 1 and 2 using energy equation.
%3D
2.5 cm–
3 m
8 cm
Water
0.6 m
`Mercury

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