A reversible chemical reaction 2A + B = C can be characterized by the equilibrium relationship, Cc K = 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 (Cc.o + x) K = (cao – 2x)°(cpo – x) Where, the subscript 0 designates the initial concentration of each constituent. If K =
A reversible chemical reaction 2A + B = C can be characterized by the equilibrium relationship, Cc K = 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 (Cc.o + x) K = (cao – 2x)°(cpo – x) Where, the subscript 0 designates the initial concentration of each constituent. If K =
Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
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Transcribed Image Text:A reversible chemical reaction 2A + B = C can be characterized by the equilibrium
relationship,
Cc
K =
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
(Cc.o + x)
(cao – 2x)°(cp,0 – x)
K
Where, the subscript 0 designates the initial concentration of each constituent. If K =
0.016, ca,0 = 40, Cb,0 = 25, and cc,o = 3.25, using the false position method determine the
value of x. Take x = 0 and xu = 20 as the initial guesses. Perform at least 3 (three) iterations.
%3D
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