The time to reach a particular conversion of a certain gaseous-phase reaction if given by the ff equation: -XA 1+ EAXA 1 t = KCAO Jo (1– XĄ)² where k=reaction constant, CAo=initial concentration of A, E4=expansion constant and XA=conversion of the reaction. Calculate the time in seconds to achieve XA emperature are 1.5 atm and 350 K, respectively, and k=0.15 L/hr-mol and ɛ4= 2. Compare it with the analytical value by = 0.8 using Simpson's Rule, if initial gas (consisting of pure A) pressure and he computing relative error.
The time to reach a particular conversion of a certain gaseous-phase reaction if given by the ff equation: -XA 1+ EAXA 1 t = KCAO Jo (1– XĄ)² where k=reaction constant, CAo=initial concentration of A, E4=expansion constant and XA=conversion of the reaction. Calculate the time in seconds to achieve XA emperature are 1.5 atm and 350 K, respectively, and k=0.15 L/hr-mol and ɛ4= 2. Compare it with the analytical value by = 0.8 using Simpson's Rule, if initial gas (consisting of pure A) pressure and he computing relative error.
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter5: Inverse, Exponential, And Logarithmic Functions
Section: Chapter Questions
Problem 18T
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