The following mechanism has been proposed to account for the rate law of the decomposition of ozone to O2(g):
Apply the steady-state hypothesis to the concentration of atomic oxygen, and derive the rate law for the decomposition of ozone. (M stands for an atom or molecule that can exchange kinetic energy with the particles undergoing the chemical reaction.)
Answer to relevant QuestionsConsider the hypothetical reaction B → E + F which is assumed to occur by the mechanism Where B* represents a B molecule with enough energy to surmount the reaction energy bar70. Consider the following potential energy ...Which of the following reactions would you expect to have the larger rate at room temperature? Why? (Hint: Think of which would have the lower activation energy.) 2Ce4+(aq) + Hg22+(aq) → 2Ce3+(aq) + 2Hg2+(aq) H3O+(aq) + ...What are intermolecular forces? How do they differ from intramolecular forces? What are dipole–dipole forces? How do typical dipole–dipole forces differ from hydrogen-bonding interactions? In what ways are they similar? ...Dry nitrogen gas is bubbled through liquid benzene (C6H6) at 20.0oC. From 100.0 L of the gaseous mixture of nitrogen and benzene, 24.7 g of benzene is condensed by passing the mixture through a trap at a temperature where ...A metal burns in air at 600oC under high pressure to form an oxide with formula MO2. This compound is 23.72% oxygen by mass. The distance between the centers of touching atoms in a cubic closest packed crystal of this metal ...
Post your question