7 of 3 Y Reaction 1 Reaction 2 -- . Reaction Coordinate In an experiment done at a low temperature, one hour after the reaction started, Y was produced but almost no Z was produced. At a much higher temperature, one hour after the reaction started, both Y and Z had been produced. Which of the following best explains why very little Z was produced at the lower temperature? A A smaller number of X molecules had enough energy to overcome the activation energy barrier for reaction 2, and very little Z was produced в The higher average kinetic energy of the X molecules at the lower temperature resulted in very little Z produced. The greater collision frequency between X molecules at the lower temperature resulted in very little Z produced. The intermolecular forces between X molecules were much weaker, and very little Z was produced.

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(7)
« < 7 of 30
Reaction 1
Reaction 2
Submi
Reaction Coordinate
In an experiment done at a low temperature, one hour after the reaction started, Y was produced but almost no Z was produced. At a much higher temperature, one hour after the reaction started, both Y and
Z had been produced. Which of the following best explains why very little Z was produced at the lower temperature?
A
A smaller number of X molecules had enough energy to overcome the activation energy barrier for reaction 2, and very little Z was produced.
The higher average kinetic energy of the X molecules at the lower temperature resulted in very little Z produced
The greater collision frequency between X molecules at the lower temperature resulted in very little Z produced.
The intermolecular forces between X molecules were much weaker, and very little Z was produced.
D
Q Search or enter website name
Transcribed Image Text:A apclassroom.collegeboard.org A UPDATES AVAILABLE 1:07 CollegeBoard AP Classroom Unit 9 Progress Check: MCQ Do you want to install the updates now? (7) « < 7 of 30 Reaction 1 Reaction 2 Submi Reaction Coordinate In an experiment done at a low temperature, one hour after the reaction started, Y was produced but almost no Z was produced. At a much higher temperature, one hour after the reaction started, both Y and Z had been produced. Which of the following best explains why very little Z was produced at the lower temperature? A A smaller number of X molecules had enough energy to overcome the activation energy barrier for reaction 2, and very little Z was produced. The higher average kinetic energy of the X molecules at the lower temperature resulted in very little Z produced The greater collision frequency between X molecules at the lower temperature resulted in very little Z produced. The intermolecular forces between X molecules were much weaker, and very little Z was produced. D Q Search or enter website name
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Unit 9 Progress Check: MCQ
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8
9
10
11
13
Reaction 1:
X2Y
30
Reaction 2:
K undergoes the two competing reactions represented above. The following graph shows the changes in energy that occur as the two reactions take place.
Y
Reaction 1
Reaction 2
Reaction Coordinate
In an experiment done at a low temperature, one hour after the reaction started, Y was produced but almost no Z was produced. At a much higher temperature, one hour after the reaction started, both Y and
Z had been produced. Which of the following best explains why very little Z was produced at the lower temperature?
O Search or enter website name
Energy
Transcribed Image Text:CollegeBoard AP Classroom A UPDATES AVAILABLE Unit 9 Progress Check: MCQ Do you want to install the updates now? 8 9 10 11 13 Reaction 1: X2Y 30 Reaction 2: K undergoes the two competing reactions represented above. The following graph shows the changes in energy that occur as the two reactions take place. Y Reaction 1 Reaction 2 Reaction Coordinate In an experiment done at a low temperature, one hour after the reaction started, Y was produced but almost no Z was produced. At a much higher temperature, one hour after the reaction started, both Y and Z had been produced. Which of the following best explains why very little Z was produced at the lower temperature? O Search or enter website name Energy
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