Answer:
a) O₃ + O → 2 O₂.
b) For reaction 1: Rate = k₁ [X][O₃] & For reaction 2: Rate = k₂ [XO][O].
c) X acts as a catalyst and XO acts as an intermediate.
d) rate of depletion of O₃ = 2 x 10⁸ molecule/cm³.s.
Step-by-step explanation:
a) To obtain the overall reaction, we add the two mentioned steps and cancel the particles appear the same at both sides.
- The overall reaction is: O₃ + O → 2 O₂.
b) The rate law of both steps:
- For reaction 1: Rate = k₁ [X][O₃].
- For reaction 2: Rate = k₂ [XO][O].
c) X acts as a catalyst and XO acts as an intermediate.
- X begins the reaction as a reactant in the first step and finally appears as a product in the second step and does not appear in the overall reaction, so it is considered as a catalyst.
- XO is produced in the first step and consumed within the second step and does not appear in the overall reaction, so it os considered as an intermediate.
d) The rate determining step is the slowest step (step 1) and in this step the depletion of O₃ occurs.
- The rate law for this step is (rate of O₃ depletion):
- Rate of depletion of O₃ = k[NO][O₃] = (6 x 10⁻¹⁵ cm³/molecule.s) (3 x 10¹² molecule/cm³) (9.9 x 10⁹ molecule/cm³) = 1.782 x 10⁸ molecule/cm³.s = 2 x 10⁸ molecule/cm³.s. "one significant figure"