In the gas phase, iodine reacts with cyclopentene (C5H8) by a free radical mechanism to produce cyclopentadiene (C5H6) and hydrogen iodide. How will each of the following affect the amount of HI (g) present in the equilibrium mixture in the reaction: 12 (g) + C5H8 (g) → C5H6 (g) + 2 HI (g) AH° = 92.5 kJ a) Raising the temperature of the mixture Stay the Increase Decrease same Stay the b) Introducing more C5H6 (g) Increase Decrease same c) Doubling the Stay the volume of the Increase Decrease same container d) Adding an inert gas to the Stay the Increase Decrease constant-volume same reaction mixture e) Removing some Stay the Increase Decrease 12 (g) same f) Adding an Stay the appropriate Increase Decrease same catalyst

Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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In the gas phase, iodine reacts with cyclopentene (C5H8) by a free
radical mechanism to produce cyclopentadiene (C5H6) and hydrogen
iodide. How will each of the following affect the amount of HI (g)
present in the equilibrium mixture in the reaction:
12 (g) + C5H8 (g) → C5H6 (g) + 2 HI (g)
AH° = 92.5 kJ
a) Raising the
temperature of
the mixture
Stay the
Increase
Decrease
same
Stay the
b) Introducing
more C5H6 (g)
Increase
Decrease
same
c) Doubling the
Stay the
volume of the
Increase
Decrease
same
container
d) Adding an inert
gas to the
Stay the
Increase
Decrease
constant-volume
same
reaction mixture
e) Removing some
Stay the
Increase
Decrease
12 (g)
same
f) Adding an
Stay the
appropriate
Increase
Decrease
same
catalyst
Transcribed Image Text:In the gas phase, iodine reacts with cyclopentene (C5H8) by a free radical mechanism to produce cyclopentadiene (C5H6) and hydrogen iodide. How will each of the following affect the amount of HI (g) present in the equilibrium mixture in the reaction: 12 (g) + C5H8 (g) → C5H6 (g) + 2 HI (g) AH° = 92.5 kJ a) Raising the temperature of the mixture Stay the Increase Decrease same Stay the b) Introducing more C5H6 (g) Increase Decrease same c) Doubling the Stay the volume of the Increase Decrease same container d) Adding an inert gas to the Stay the Increase Decrease constant-volume same reaction mixture e) Removing some Stay the Increase Decrease 12 (g) same f) Adding an Stay the appropriate Increase Decrease same catalyst
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