Rate Law Lab. Fill in the blank Questions

Question

anonymous · Answer

attachment

anonymous · Answer

@aaronq Would you be able to help ?:)

aaronq · Answer

sure!  so, i think we need the rate law first, do you know how to find that?

anonymous · Answer

@aaronq yes! I actually calculated that to be ... rate = k[R2]^3[S]

aaronq · Answer

okay, awesome. for the second question, you need to scale the rates to their stoichiometric coefficients. For example, the differential rates are:

3 a)  $-\dfrac{1}{2}\dfrac{[R_2]}{dt}=\dfrac{1}{1}\dfrac{[T_2]}{dt}$

so the rate appearance of $T_2$ is double that of dissappereance of $R_2$

anonymous · Answer

@aaronq ah okay. So hm for (b) would the rate of disappearance of S be 3 times the rate of appearance for V?

aaronq · Answer

you know, i think doing it reversed. The rate of appearance of V would be 3 times of S, likewise in the previous part the rate of R2 would be twice that of T2

anonymous · Answer

@aaronq oh i getcha. Therefore would (c) also be 3 times?

aaronq · Answer

yep, thats it!

anonymous · Answer

@aaronq Thank you so much :)