1.2.A reversible chemical reaction 2A+B+C can be characterized by the equilibrium relationship C K= cce where the nomenclature c, represents the concentration of constituent i. Suppose that we define a variable x as representing the number of moles of C that are produced. Conservation of mass can be used to reformulate the equilibrium relationship as K=- (cco+x) (cao – 2x) (co− x ) where the subscript 0 designates the initial concentration of each constituent. If K = 0.016, Cao =42, Co = 28 and co=4, determine the value of x. 1.2.1. Used the bisection rule (create an m-file) to find the roots with the initial guesses of x = 0 and x = 20 and an absolute error of 0.5%. [Hint: simplify the equation] (10) 0.04

Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
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1.2.A reversible chemical reaction
2A+B+C
can be characterized by the equilibrium relationship
C
K= cce
where the nomenclature c, represents the concentration of constituent i. Suppose that
we define a variable x as representing the number of moles of C that are produced.
Conservation of mass can be used to reformulate the equilibrium relationship as
K=-
(cco+x)
(cao – 2x) (co− x )
where the subscript 0 designates the initial concentration of each constituent. If K =
0.016, Cao =42, Co = 28 and co=4, determine the value of x.
1.2.1. Used the bisection rule (create an m-file) to find the roots with the initial
guesses of x = 0 and x = 20 and an absolute error of 0.5%.
[Hint: simplify the equation]
(10)
0.04
Transcribed Image Text:1.2.A reversible chemical reaction 2A+B+C can be characterized by the equilibrium relationship C K= cce where the nomenclature c, represents the concentration of constituent i. Suppose that we define a variable x as representing the number of moles of C that are produced. Conservation of mass can be used to reformulate the equilibrium relationship as K=- (cco+x) (cao – 2x) (co− x ) where the subscript 0 designates the initial concentration of each constituent. If K = 0.016, Cao =42, Co = 28 and co=4, determine the value of x. 1.2.1. Used the bisection rule (create an m-file) to find the roots with the initial guesses of x = 0 and x = 20 and an absolute error of 0.5%. [Hint: simplify the equation] (10) 0.04
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