The rate constant for the reaction NO2 + O3 --> NO3 + O2 was determined over...

For the elementary gas-phase reaction O3 + NO  NO2 + O2, one finds that Ea...

For the elementary gas-phase reaction O3 + NO  NO2 + O2, one finds that Ea = 2.5 kcal/mole and A = 6 X 108 dm3mol-1s-1 for the temperature range 220 – 320 K. Calculate ΔG0c‡, ΔHoc‡, and ΔSoc‡ for the midpoint of this temperature range.

To what temperature would the reaction below need to be heated to have a rate constant...

To what temperature would the reaction below need to be heated to have a rate constant of 2.299e9 M-1s-1 if the rate constant was 1.0800e9 M-1s-1 at -78.00°C and the activation energy was 11.900 kJ/mol? NO(g) + O3(g) ↔ NO2(g) + O2(g) Answer Choices: -23.64°C -55.58°C -68.86°C 204.29°C

An atmospheric scientist studies the following atmospheric reaction in the laboratory. NO2 + O2 → NO...

An atmospheric scientist studies the following atmospheric reaction in the laboratory. NO2 + O2 → NO + O3 The reaction has a pseudo first order rate constant of 2.20 • 10-5 s-1 at 25 °C. Determine the second order rate constant of the reaction (in s-1molecules-1 cm3) assuming a pressure of 0.825 atm and an O2 mixing ratio of 0.210.

Determine the rate law (be sure to include the value for k) for the following reaction...

Determine the rate law (be sure to include the value for k) for the following reaction using the data provided. NO2(g)+O3(g)->NO3(g)+O2(g) [NO2] (M) [O3]i (M) initial rate 0.10 0.33 0.0223 0.10 0.66 0.01788 0.25 0.66 1.112 Please help with reasoning on how to find the order of the reactions when they are not first or 0 order and how to find k. Thank you!

Rate constants for the reaction NO2(g)+CO(g)?NO(g)+CO2(g) are 1.3M?1s?1 at 700 K and 23.0M?1s?1 at 800 K....

Rate constants for the reaction NO2(g)+CO(g)?NO(g)+CO2(g) are 1.3M?1s?1 at 700 K and 23.0M?1s?1 at 800 K. Part A What is the value of the activation energy in kJ/mol? Ea = 134   kJ/mol   SubmitMy AnswersGive Up Correct Part B What is the rate constant at 770K ? Express your answer using two significant figures. k =   /(M?s)

The rate constant for the reaction below was determined to be 3.241×10-5 s–1 at 800 K....

The rate constant for the reaction below was determined to be 3.241×10-5 s–1 at 800 K. The activation energy of the reaction is 215 kJ/mol. What would be the value of the rate constant at 9.10×102 K? N2O(g) --> N2(g) + O2(g) I'm having trouble calculating the rate constant with the arrhenius equation that deals with two temps, could you show me the step by step how to do this?

The reaction of ammonium ion with nitrite ion in aqueous solution NH4+ + NO2- --->   N2...

The reaction of ammonium ion with nitrite ion in aqueous solution NH4+ + NO2- --->   N2 + 2 H2O is first order in NH4+ and first order in NO2-. Complete the rate law for this reaction. Use the form k[A]m[B]n... , where '1' is understood for m, n ... (don't enter 1) and concentrations taken to the zero power do not appear. Rate = In an experiment to determine the rate law, the rate of the reaction was determined to...

The rate constant for the decomposition of gaseous NO2 to NO and O2 is 4.7/(M?s) at...

The rate constant for the decomposition of gaseous NO2 to NO and O2 is 4.7/(M?s) at 383 ?C. Consider the decomposition of a sample of pure NO2 having an initial pressure of 752mmHg in a 5.50L reaction vessel at 383 ?C. It is a second order reaction. B. What is the initial rate of formation of O2 in g/(L?s)? USE TWO SIGNIFICANT FIGURES C. What is the mass of O2 in the vessel after a reaction time of 2.00min ?

A certain reaction has an activation energy of 66.0 kJ/mol and a frequency factor of A1...

A certain reaction has an activation energy of 66.0 kJ/mol and a frequency factor of A1 = 8.30×1012 M−1s−1 . What is the rate constant, k, of this reaction at 27.0 ∘C ? An unknown reaction was observed, and the following data were collected: T (K) k (M−1⋅s−1) 352 109 426 185 Determine the activation energy for this reaction.

The reaction between nitrogen dioxide and carbon monoxide is NO2(g)+CO(g)→NO(g)+CO2(g) The rate constant at 701 K...

The reaction between nitrogen dioxide and carbon monoxide is NO2(g)+CO(g)→NO(g)+CO2(g) The rate constant at 701 K is measured as 2.57 M−1⋅s−1 and that at 895 K is measured as 567 M−1⋅s−1. The activation energy is 1.5×102 kJ/mol. Predict the rate constant at 525 K . Express the rate constant in liters per mole-second to three significant figures.