Chemical Mechanism8.The mechanism for the reaction described byNO,(g) + CO(g)→ CO,(g) + NO(g)anhe dis suggested to be(1) 2 NO,(g)NO, (g) + NO(g)(2) NO,(g) + CO(g) NO,(g) + Co,(g)3) NO219) +Coca) > NOg) +c0ze9)The experimental rate law for the production of [CO2] = k, [NO2J² ord[CO2]ka[NO2]?%3Ddtd[NO3]Assuming that [NO3] is governed by a steady state (= 0 ), is this a valid mechanism? i.e showdtthat using elementary reactions 1 and 2, the experimental rate law can found. (Hint write out all the waysthat [NO3] and [CO2] are created and destroyed,d[NO3]= ?dtd[CO2]= ? )dtand25C

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Chemical Mechanism 8. The mechanism for the reaction described by NO, (g) + CO(g) → CO,) + NO(g) is suggested to be k (1) 2 NO,(g) NO,(g) + NO(g) (2) NO,g) + CO(g) → NO,(g) + Co,(g) 3) NO219) +COca)7 NOg) + COz eg) The experimental rate law for the production of [CO2] = k, [NO2J or d[CO2) k,[NO2]2 %3D dt = 0 ), is this a valid mechanism? i.e show dt d[NO3] Assuming that [NO3] is governed by a steady state (* that using elementary reactions 1 and 2, the experimental rate law can found. (Hint write out all the ways d[NO3] a[CO2=?) that [NO3] and [CO2] are created and destroyed, : ? and %3D dt dt following elec cal cll 25C

Chemical Mechanism 8. The mechanism for the reaction described by NO, (g) + CO(g) → CO,) + NO(g) is suggested to be k (1) 2 NO,(g) NO,(g) + NO(g) (2) NO,g) + CO(g) → NO,(g) + Co,(g) 3) NO219) +COca)7 NOg) + COz eg) The experimental rate law for the production of [CO2] = k, [NO2J or d[CO2) k,[NO2]2 %3D dt = 0 ), is this a valid mechanism? i.e show dt d[NO3] Assuming that [NO3] is governed by a steady state (* that using elementary reactions 1 and 2, the experimental rate law can found. (Hint write out all the ways d[NO3] a[CO2=?) that [NO3] and [CO2] are created and destroyed, : ? and %3D dt dt following elec cal cll 25C

Chemistry for Engineering Students

4th Edition

ISBN:9781337398909

Author:Lawrence S. Brown, Tom Holme

Publisher:Lawrence S. Brown, Tom Holme

Chapter11: Chemical Kinetics

Section: Chapter Questions

Problem 11.65PAE

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