Substances A, B, and C can all act as oxidizing agents. In solution, A is green, B isyellow, and C is red. In the reactions in which they participate, they are reduced to Aminus, B minus, and C minus ions, all of which are colorless.You are given an unknown, colorless, solution that contains one of the followingsalts: N a A, N a B, N a C. In solution, each salt dissociates completely into the Na+ion and the anion A minus, B minus, or C minus. The Na + ion is effectively inert. Youare given the availability of solutions of A, B, and C, develop a simple procedure foridentifying the salt that is present in your unknown.Hint:1 minusFor X2 + 2 Y 1 minusY2 + 2 X--->If a reaction occurs, X is more active than Y.If a reaction does not occur, Y is more active than X. For X2 + 2 Y 1 minus --->Y2 + 2 X1 minusIf a reaction occurs, X is more active than Y.If a reaction does not occur, Y is more active than X.React your unknown with A, B and C respectively. If a reaction occurs, yourunknown is less active than what you reacted it with.React your unknown with A, B and C respectively. If a reaction occurs, yourunknown is more active than what you reacted it with.React your unknown with N a A, N a B and N a C respectively. If a reactionoccurs, your unknown is less active than what you reacted it with.React your unknown with N a A, N a B and N a C respectively. If a reactionoccurs, your unknown is more active than what you reacted it with.

This information is basically a type of displacement reaction. A more active component displaces the…

Answered: 1 minus For X2 + 2 Y 1 minus Y2 + 2 X…

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

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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The reaction below was determined experimentally to be first order in both NO2 and O3: 2NO2(g) + O3(g) → N2O5(g) + O2(g) Which proposed mechanism(s) is/are consistent with the observed rate law? Mechanism I: O3 40 + O2 O + NO2 → NO3 NO2 + NO3 → N2O5 Step 1 (fast, equilibrium) Step 2 (slow) Step 3 (fast) Mechanism II: Step 1 O3 + NO2 NO3 + O2 slow Step 2 NO2 + NO3 → N2O5 fast Neither I and II Il only O I only Both I and II
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Here is a graph of the pressure of ozone O3 in a reaction vessel during a certain chemical reaction. Is O3 being created or destroyed by the chemical reaction? If O3 is being created or destroyed, what is the rate at which it is being created or destroyed 70 seconds after the reaction starts? If O3 is being created or destroyed, what is the average rate at which it is being created or destroyed during the first 70 seconds of the reaction? Round all answers to 2 significant figures.
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Problem IX (10 p): Consider the isomerization of compound A from its cis to its trans isomer at 298 K, which is first order in both directions: ki cis-A = trans-A k2 The rate constant for the forward reaction is k1 = 4.2 × 10* s', and the rate constant for the reverse reaction is k2 = 2.1 × 10-ª s-1. %3D a) Calculate the equilibrium concentrations [cis-A]eq and [trans-A]eq, assuming that at time t= 0 all of A was in the cis-form, i.e., [cis-A]o = [A]o. (Hint: Use the fact that at any time, [cis-A] + [trans-A] = [A]o.) %3D b) Which reaction is spontaneous, the forward reaction or the reverse reaction? Provide your reasoning. Total /100 p
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