Q27. The gas phase reaction between SiH2 and H20 was studied, and the following mechanismwas proposed. M is a buffer gas which takes away energy as heat; you can treat it as a regularreactant.1)SİH2 + H20 FSİH2-H2O*K2)SİH2-H2O* + MSİH3OHAssuming that the first step is a pre-equilibrium step and the second step is rate-limiting, derivethe rate law for this mechanism.

The speed at which the reaction takes place is called the rate of the reaction. Temperature plays an…

Q27. The gas phase reaction between SİH2 and H20 was studied, and the following mechanism was proposed. M is a buffer gas which takes away energy as heat; you can treat it as a regular reactant. 1) SIH2 + H20 F SİH2-H2O* K 2) SİH2-H2O* + M SİH3OH ko Assuming that the first step is a pre-equilibrium step and the second step is rate-limiting, derive the rate law for this mechanism.

Q27. The gas phase reaction between SİH2 and H20 was studied, and the following mechanism was proposed. M is a buffer gas which takes away energy as heat; you can treat it as a regular reactant. 1) SIH2 + H20 F SİH2-H2O* K 2) SİH2-H2O* + M SİH3OH ko Assuming that the first step is a pre-equilibrium step and the second step is rate-limiting, derive the rate law for this mechanism.

Organic Chemistry: A Guided Inquiry

2nd Edition

ISBN:9780618974122

Author:Andrei Straumanis

Publisher:Andrei Straumanis

Chapter8: Addition Via Carbocation

Section: Chapter Questions

Problem 22CTQ

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