Change in concentration vs. reaction rate

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SUMMARY

The discussion centers on the relationship between concentration change and reaction rate in chemical kinetics, specifically addressing the equation ##\frac {d[C]}{dt} \ne k[C]##. It is established that the reaction rate, denoted as ##r_{c} = k[C]##, does not always equate to the change in concentration over time due to differing units and the complexity of reactions beyond unimolecular types. The conversation highlights that while concentration is a factor, the reaction velocity is influenced more by chemical activity than mere concentration, particularly in bimolecular reactions.

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gfd43tg
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Hello,

I am wondering, why is it that

##\frac {d[C]}{dt} \ne k[C]## in general, where ##C## is a chemical species, and the product ##k[C]## is the reaction rate, ##r##. ##r_{c} = k[C]##

My thoughts is that because the units aren't necessarily the same, therefore they can't be the same. But I was wondering about a more physical explanation.
 
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What you're describing is a unimolecular reaction. If you have a reaction that is more than just one thing changing on its own, you have at least a bimolecular reaction and you can't talk about it just in terms of a single concentration.

The units of the rate constant are whatever they have to be for whatever type of reaction you have. You'll learn all about this in P-chem.
 
What do the square brackets stand for, exactly?
 
Concentration of the species
 
You have to be careful, here. The velocity of the reaction may in deed be formulated as the change of the concentration of a species with time. However, even in unimolecular reactions, the expression on the right hand side depends rather on the chemical activity than on concentration.
 

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