The reaction2 NO(g) + O₂ (9) → 2 NO₂ (9)was studied, and the following data were obtained whereRate = -Rate =Δ[02]At[NO]o(molecules/cm³)1.00 x 10183.00 x 10182.50 x 1018[0₂]0(molecules/cm³)1.00 x 10181.00 x 10182.50 x 1018Initial Rate(molecules/cm³ - s)2.00 x 10¹61.80 x 10¹73.13 x 1017What would be the initial rate for an experiment where [NO]=4.87 x 10¹8 molecules/cm³ and [0₂]0 = 3.12 x 10¹8 molecules/cm³?molecules/cm³.s

For given equation rate law can be written as- where x is order of reaction with respect to NO and…

The reaction 2 NO(g) + O₂ (g) → 2 NO₂(g) was studied, and the following data were obtained where Rate = - Δ[02] At [NO]o (molecules/cm³) [0₂]0 Initial Rate (molecules/cm³) (molecules/cm³ ·S) 2.00 x 10¹6 1.80 x 10¹7 3.13 x 10¹7 1.00 x 1018 1.00 x 1018 3.00 x 10¹8 1.00 x 1018 2.50 x 1018 2.50 × 1018 What would be the initial rate for an experiment where [NO], = 4.87 x 10¹8 molecules/cm³ and [0₂]0 = 3.12 x 10¹8 molecules/cm³ ?

The reaction 2 NO(g) + O₂ (g) → 2 NO₂(g) was studied, and the following data were obtained where Rate = - Δ[02] At [NO]o (molecules/cm³) [0₂]0 Initial Rate (molecules/cm³) (molecules/cm³ ·S) 2.00 x 10¹6 1.80 x 10¹7 3.13 x 10¹7 1.00 x 1018 1.00 x 1018 3.00 x 10¹8 1.00 x 1018 2.50 x 1018 2.50 × 1018 What would be the initial rate for an experiment where [NO], = 4.87 x 10¹8 molecules/cm³ and [0₂]0 = 3.12 x 10¹8 molecules/cm³ ?

Chemistry: The Molecular Science

5th Edition

ISBN:9781285199047

Author:John W. Moore, Conrad L. Stanitski

Publisher:John W. Moore, Conrad L. Stanitski

Chapter11: Chemical Kinetics: Rates Of Reactions

Section: Chapter Questions

Problem 70QRT

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