A food substance kept at 0°C becomes rotten (as determined by a good quantitative test) in 8.3 days. The same food rots in 10.6 hours at 30°C. Assuming the kinetics of the microorganisms enzymatic action is responsible for the rate of decay, what is the activation energy for the decomposition process? Hint: Rate varies INVERSELY with time; a faster rate produces a shorter decomposition time. 67.2 kJ/mol 2.34 kJ/mol 23.4 kJ/mol 0.45 kJ/mol
A food substance kept at 0°C becomes rotten (as determined by a good quantitative test) in 8.3 days. The same food rots in 10.6 hours at 30°C. Assuming the kinetics of the microorganisms enzymatic action is responsible for the rate of decay, what is the activation energy for the decomposition process? Hint: Rate varies INVERSELY with time; a faster rate produces a shorter decomposition time. 67.2 kJ/mol 2.34 kJ/mol 23.4 kJ/mol 0.45 kJ/mol
Chemistry
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ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
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Transcribed Image Text:A food substance kept at 0°C becomes rotten (as determined by a good quantitative test) in 8.3 days. The same
food rots in 10.6 hours at 30°C. Assuming the kinetics of the microorganisms enzymatic action is responsible for
the rate of decay, what is the activation energy for the decomposition process? Hint: Rate varies INVERSELY with
time; a faster rate produces a shorter decomposition time.
67.2 kJ/mol
2.34 kJ/mol
23.4 kJ/mol
0.45 kJ/mol
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