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Termolecular.

Published byΘήρων Παππάς Modified over 5 years ago

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Presentation on theme: "Termolecular."— Presentation transcript:

1 Termolecular

2 Fast Initial Step The rate law for this reaction is found to be
2 NO (g) + Br2 (g)  2 NOBr (g) The rate law for this reaction is found to be Rate = k [NO]2 [Br2] Because termolecular processes are rare, this rate law suggests a two-step mechanism.

3 Fast Initial Step A proposed mechanism is Step 1: NO + Br2
NOBr2 (fast) Step 2: NOBr2 + NO  2 NOBr (slow) Step 1 includes the forward and reverse reactions.

4 Fast Initial Step The rate of the overall reaction depends upon the rate of the slow step. The rate law for that step would be Rate = k2 [NOBr2] [NO] But how can we find [NOBr2]?

5 Fast Initial Step NOBr2 can react two ways:
With NO to form NOBr By decomposition to reform NO and Br2 The reactants and products of the first step are in equilibrium with each other. Therefore, Ratef = Rater

6 Fast Initial Step Because Ratef = Rater , k1 [NO] [Br2] = k−1 [NOBr2]
Solving for [NOBr2] gives us k1 k−1 [NO] [Br2] = [NOBr2]

7 Fast Initial Step Substituting this expression for [NOBr2] in the rate law for the rate-determining step gives k2k1 k−1 Rate = [NO] [Br2] [NO] = k [NO]2 [Br2]

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