## 15. 17 [ENDORSED]

$aR \to bP, Rate = -\frac{1}{a} \frac{d[R]}{dt} = \frac{1}{b}\frac{d[P]}{dt}$

Cristina Sarmiento 1E
Posts: 52
Joined: Wed Nov 16, 2016 3:02 am

### 15. 17

How do you know when a reactant is independent of the rate?

Anna Goldberg 2I
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### Re: 15. 17

In experiments 1 and 4, the initial rate stays the same while the concentrations of A and B stay the same between the two experiments-yet, C changes between the two experiments. Thus, C does not contribute to the initial rate, because a change in the initial rate does not result from a change in C.

104922499 1F
Posts: 53
Joined: Fri Sep 29, 2017 7:04 am

### Re: 15. 17  [ENDORSED]

the values in experiment 1 and 4 the initial rate stays the same and the concentrations of A and B stay the same. C however changes between the 1 and 4 experiment so it doesn't contribute to the initial rate.

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