(a) Determine the magnitude and direction of the anchoring force needed to hold the horizontal elbow and nozzle combination in place as shown in the Figure Q3 (a) below. Atmospheric pressure is 100 kPa(abs). The gage pressure at section (1) is 100 kPa. At section (2), the water exits to the atmosphere. 160 mm Section (2) 300 mm Water

Structural Analysis
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Chapter2: Loads On Structures
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(a)
Determine the magnitude and direction of the anchoring force needed to hold
the horizontal elbow and nozzle combination in place as shown in the Figure
Q3 (a) below. Atmospheric pressure is 100 kPa(abs). The gage pressure at
section (1) is 100 kPa. At section (2), the water exits to the atmosphere.
160 mm
Section (2)
300 mm
Water
Section (1)
P1 = 100 kPa
V =2 m/s
Figure Q3 (a)
(b)
Applying Dimensional Analysis to the human anatomy studies, it was found
that the velocity, c, at which pressure pulses travel through arteries is a function
of the artery diameter, D, and wall thickness, h, the density of blood, p, and the
modulus of elasticity, E, of the arterial wall.
(1)
Perform a dimensional analysis for this study showing all the steps using
the density of blood, p, artery diameter, D, and the modulus of elasticity,
E, as the repeating variables in either FLT system or MLT system.
(ii)
Atherosclerosis is the thickening of the arteries caused by a build-up of
plaque in the inner lining of an artery. With the aid of dimensional
analysis, determine how the velocity will change if the wall thickness is
doubled while keeping all other parameters constant.
Transcribed Image Text:(a) Determine the magnitude and direction of the anchoring force needed to hold the horizontal elbow and nozzle combination in place as shown in the Figure Q3 (a) below. Atmospheric pressure is 100 kPa(abs). The gage pressure at section (1) is 100 kPa. At section (2), the water exits to the atmosphere. 160 mm Section (2) 300 mm Water Section (1) P1 = 100 kPa V =2 m/s Figure Q3 (a) (b) Applying Dimensional Analysis to the human anatomy studies, it was found that the velocity, c, at which pressure pulses travel through arteries is a function of the artery diameter, D, and wall thickness, h, the density of blood, p, and the modulus of elasticity, E, of the arterial wall. (1) Perform a dimensional analysis for this study showing all the steps using the density of blood, p, artery diameter, D, and the modulus of elasticity, E, as the repeating variables in either FLT system or MLT system. (ii) Atherosclerosis is the thickening of the arteries caused by a build-up of plaque in the inner lining of an artery. With the aid of dimensional analysis, determine how the velocity will change if the wall thickness is doubled while keeping all other parameters constant.
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