(category: friction factor, FE prep): Air at 1 atm and 10°C flows in a 4 cm diameter glass pipe (roughness of 0, according to Table 8-2) at a velocity of 7 ". Find the friction factor. Calculate Problem 3 the head loss over a 2 m length of pipe. From Table A-9, air at 1 atm and 10°C has kinematic viscosity of 1.087 x 10-5 m
(category: friction factor, FE prep): Air at 1 atm and 10°C flows in a 4 cm diameter glass pipe (roughness of 0, according to Table 8-2) at a velocity of 7 ". Find the friction factor. Calculate Problem 3 the head loss over a 2 m length of pipe. From Table A-9, air at 1 atm and 10°C has kinematic viscosity of 1.087 x 10-5 m
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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- Problem :3 only
- (category: friction factor, FE prep):
- Air at 1 atm and 10°C flows in a 4 cm diameter glass pipe (roughness of 0) at a velocity of 7 m/s.
- Find the friction factor. Calculate the head loss over a 2 m length of pipe.
- Air at 1 atm and 10°C has kinematic viscosity of 1.087 x 10-5
Transcribed Image Text:Problem 3
(category: friction factor, FE prep): Air at 1 atm and 10°C flows in a 4 cm diameter
glass pipe (roughness of 0, according to Table 8-2) at a velocity of 7 ". Find the friction factor. Calculate
the head loss over a 2 m length of pipe. From Table A-9, air at 1 atm and 10°C has kinematic viscosity of
1.087 x 10-5 m?
Problem 4
(category: minor losses, FE prep): Water (density 1000 ) flows at 1.2 through
a system with a 180 deg threaded return bend and a 90 deg miter bend without vanes. Calculate the
APL
%3D
resulting pressure loss through these components. Remember that h,
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