![[Graphics:../Images/reactor_gr_76.gif]](../Images/reactor_gr_76.gif)
Here is the plot of the answers. Note that d and e are about the same for this frequency, ω=1.
![[Graphics:../Images/reactor_gr_77.gif]](../Images/reactor_gr_77.gif)
![[Graphics:../Images/reactor_gr_78.gif]](../Images/reactor_gr_78.gif)
![[Graphics:../Images/reactor_gr_79.gif]](../Images/reactor_gr_79.gif)
Here is just d and e.
![[Graphics:../Images/reactor_gr_80.gif]](../Images/reactor_gr_80.gif)
![[Graphics:../Images/reactor_gr_81.gif]](../Images/reactor_gr_81.gif)
![[Graphics:../Images/reactor_gr_82.gif]](../Images/reactor_gr_82.gif)
We see that e is highest on the catalyst also.
![[Graphics:../Images/reactor_gr_83.gif]](../Images/reactor_gr_83.gif)
Let's see what the steady state concentrations of d and e are.
![[Graphics:../Images/reactor_gr_84.gif]](../Images/reactor_gr_84.gif)
![[Graphics:../Images/reactor_gr_85.gif]](../Images/reactor_gr_85.gif){kind=small}
![[Graphics:../Images/reactor_gr_86.gif]](../Images/reactor_gr_86.gif)
We see that d is slightly favored.
![[Graphics:../Images/reactor_gr_87.gif]](../Images/reactor_gr_87.gif){kind=small}