Calculating isolated terms of the MEE For all the following questions point 1 is upstream and point 2 is downstream. a. In a given transport system P1 is equal to 21 psia and P2 is equal to 19 psia. The fluid transported has a density of 60 lb/ft3 . Calculate the first term of the MEE in units of Ibf-ft/lb. b. In a given transport system a liquid moves at a rate of 0.07 ft3 /s. At point 1 the pipe has an inside diameter of 2.067 in. while at point 2 it has an inside diameter of 1.38 in. The liquid has a density of 62 4 lb/ft3 and a viscosity of

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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Calculating isolated terms of the MEE For all
the following questions point 1 is upstream
and point 2 is downstream.
a. In a given transport system P1 is equal to 21
psia and P2 is equal to 19 psia. The fluid
transported has a density of 60 lb/ft3 .
Calculate the first term of the MEE in units of
Ibf-ft/lb.
b. In a given transport system a liquid moves
at a rate of 0.07 ft3 /s. At point 1 the pipe has
an inside diameter of 2.067 in. while at point 2
it has an inside diameter of 1.38 in. The liquid
has a density of 62.4 Ib/ft3 and a viscosity of
6.7x10-4 lb/ft-s. Calculate the second term of
the MEE in units of Ibf-ft/lb.
Transcribed Image Text:Calculating isolated terms of the MEE For all the following questions point 1 is upstream and point 2 is downstream. a. In a given transport system P1 is equal to 21 psia and P2 is equal to 19 psia. The fluid transported has a density of 60 lb/ft3 . Calculate the first term of the MEE in units of Ibf-ft/lb. b. In a given transport system a liquid moves at a rate of 0.07 ft3 /s. At point 1 the pipe has an inside diameter of 2.067 in. while at point 2 it has an inside diameter of 1.38 in. The liquid has a density of 62.4 Ib/ft3 and a viscosity of 6.7x10-4 lb/ft-s. Calculate the second term of the MEE in units of Ibf-ft/lb.
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