The experimentallydetermined rate law for thereaction equation below is R = K[X].[Y₂] 2. Dragand drop the appropriate choices to fill in thecorrect answers for the following questions at agiven temperature:X (g) + Y2 (g) XY (g) + Y (g)a)What would happen to the rate of thereaction if [Y₂] is doubled?b)What would happen to the rate of thereaction if [X] is tripled?c)What would happen to the rate of thereaction if [X] is multiplied by 4 and [Y₂] isdecreased by half?Rate will remain unchanged.Increase with factor of 2Increase with factor of 3decrease with factor of 3Increase with factor of 4decrease with factor of 4Increase with factor of 5decrease with factor of 5Increase with factor of 8decrease with factor of 8Increase with factor of 7decrease with factor of 7Increase with factor of 9decrease with factor of 9decrease in factor of 2Increase with factor of 16الممسوحة صوليا بـ CS CamScanner

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The experimentally determined rate law for the reaction equation below is R = K[X].[Y₂] ². Drag and drop the appropriate choices to fill in the correct answers for the following questions at a given temperature:

The experimentally determined rate law for the reaction equation below is R = K[X].[Y₂] ². Drag and drop the appropriate choices to fill in the correct answers for the following questions at a given temperature:

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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Question

The experimentally
determined rate law for the
reaction equation below is R = K[X].[Y₂] 2. Drag
and drop the appropriate choices to fill in the
correct answers for the following questions at a
given temperature:
X (g) + Y2 (g) XY (g) + Y (g)
a)
What would happen to the rate of the
reaction if [Y₂] is doubled?
b)
What would happen to the rate of the
reaction if [X] is tripled?
c)
What would happen to the rate of the
reaction if [X] is multiplied by 4 and [Y₂] is
decreased by half?
Rate will remain unchanged.
Increase with factor of 2
Increase with factor of 3
decrease with factor of 3
Increase with factor of 4
decrease with factor of 4
Increase with factor of 5
decrease with factor of 5
Increase with factor of 8
decrease with factor of 8
Increase with factor of 7
decrease with factor of 7
Increase with factor of 9
decrease with factor of 9
decrease in factor of 2
Increase with factor of 16
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Step 2: (a) Rate of the reaction when [Y2] is doubled

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Step 3: (b) Rate of the reaction when [X] is tripled

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Step 4: (c) Rate of the reaction when [X] is multiplied by 4 and [Y2] is decreased by half

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