Mechanisms
For the mechanism
A+ B ß> C + B (k1 forward reaction, k-1 reverse)
C à P (k2)
The steady state approximation should be used for ______________
Using the steady state approximation, gives the expression
[C]=rate= (expression in terms of k1,k2 and [A] and [B])
1. Graphed below are the concentrations of A, B, and C as a function of time. In this case k1=0.1 and k2=0.2.
Decide whether each of the following 4 mechanisms could match what is observed in the graph. You must explain your decision for each case (does it match or not and WHY!)
3. We went through Michaelis-Menten kinetics very quickly in class. Starting with the slide labled Michaelis-Menten kinetics (2), show a complete derivation of the equation
and then show how this equation can be rearranged to give a linear form used in the lineweaver Burke plot.
(note: this is how you should be studying for all mechanisms I show, working through each step)
4. A possible mechanism for the decomposition of ozone in the reaction 2O3 (g) à 3 O2 (g) is:
O3à O2 + O ka
O2+ O à O3 ka’
O+ O3 à O2 + O2 kb
a) The intermediate in this reaction is _____________________
b) Write an expression for d[I]/dt where I is the compound you have identified as an intermediate
c) Use the steady state approximation for d[I]/dt
d) Write an expression for d[O3]/dt
e) Show that by combining c) and d) you can get the expression
d[O3]/dt=-2kakb[O3]2/(ka’[O2]+kb[O3])
f) What order would the reaction be if kb>> ka’?
5. Look at the diagrams given below. In which case(s ) would the steady state be valid? Why?
