How can the reaction rate for a high pressure gaseous reactant be slow at low temperatures? A) Particles may not have the correct orientation and/or low collision frequency. B) Particles may not have the correct orientation and/or do not have enough surface area. C) Particles may not have enough energy and/or low collision frequency. Particles may have low collision frequency and/or do not have enough surface area. D) Particles may not have enough energy and/or do not have enough surface area. E) Particles may not have the correct orientation and/or do not have enough energy.
How can the reaction rate for a high pressure gaseous reactant be slow at low temperatures? A) Particles may not have the correct orientation and/or low collision frequency. B) Particles may not have the correct orientation and/or do not have enough surface area. C) Particles may not have enough energy and/or low collision frequency. Particles may have low collision frequency and/or do not have enough surface area. D) Particles may not have enough energy and/or do not have enough surface area. E) Particles may not have the correct orientation and/or do not have enough energy.
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 11.37PAE
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How can the reaction rate for a high pressure gaseous reactant be slow at low temperatures?
A) Particles may not have the correct orientation and/or low collision frequency.
B) Particles may not have the correct orientation and/or do not have enough surface area.
C) Particles may not have enough energy and/or low collision frequency.
Particles may have low collision frequency and/or do not have enough surface area.
D) Particles may not have enough energy and/or do not have enough surface area.
E) Particles may not have the correct orientation and/or do not have enough energy.
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