The viscosity of a liquid at the critical point is given by the formula: MT Hc = 61.6 |(v.)á where: Ho = critical viscosity in micropoise, µP M = molecular weight T. = critical temperature in Kelvin, K стз V. = critical volume, mol For a similar formula using µ, in Pa – s (Pascal – second), T̟ in K,and V, in - m3 kmol Find the value of the resulting constant corresponding to 61.6. Note:1 cP (centi Poise) = 1x10-3
The viscosity of a liquid at the critical point is given by the formula: MT Hc = 61.6 |(v.)á where: Ho = critical viscosity in micropoise, µP M = molecular weight T. = critical temperature in Kelvin, K стз V. = critical volume, mol For a similar formula using µ, in Pa – s (Pascal – second), T̟ in K,and V, in - m3 kmol Find the value of the resulting constant corresponding to 61.6. Note:1 cP (centi Poise) = 1x10-3
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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Transcribed Image Text:The viscosity of a liquid at the critical point is given by the formula:
MT
Hc = 61.6
(V.
where:
Hc = critical viscosity in micropoise, µP
molecular weight
M
T. = critical temperature in Kelvin, K
стз
V. = critical volume,
mol
For a similar formula using µ̟ in Pa-
m3
s (Pascal – second), T, in K, and V, in-
kmol
Find the value of the resulting constant corresponding to 61.6.
Note:1 cP (centi Poise) = 1x10-3
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