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Sagot :
The lindeman-hinshelwood mechanism explains that role of m as a stabilizing force for the reaction.
By steady state concentration,
d[O] dt = d[O3] dt =0 (7) we can solve for [O] and [O3]
What is the Lindemann-Hinshelwood mechanism?
The unimolecular processes that take place in the gas phase are explained by the Lindemann-Hinshelwood mechanism. This method is typically employed in both isomerization reactions and gas phase breakdown. The isomerization of cyclopropane is an illustration of isomerization through a Lindemann mechanism.
The steady state approximation makes the assumption that, after a brief initial period, the concentration of the chemical intermediates will be constant throughout time, meaning that the rate of change in the intermediate's concentration over time will be zero.
Thus by steady state concentration,
d[O] dt = d[O3] dt =0 (7) we can solve for [O] and [O3]
To learn more about Lindemann-Hinshelwood mechanism from the given link below,
https://brainly.com/question/27135494
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