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

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 ?

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

The rate constant for the reaction NO2 + O3 --> NO3 + O2 was determined over a range of 40 K, with the following results: T (K) k(M-1s-1) 203 4.14x105 213 7.30x105 223 1.22x106 233 1.96x106 243 3.02x106 A. Determine the activation energy for the reaction. B. Calculate the rate constant of the reaction at 300 K.

The specific rate constant for the first-order decomposition of N2O5(g) to NO2(g) and O2(g) is 7.48×10−3s−1...

The specific rate constant for the first-order decomposition of N2O5(g) to NO2(g) and O2(g) is 7.48×10−3s−1 at a given temperature. A. Find the length of time required for the total pressure in a system containing N2O5 at an initial pressure of 0.100 atm to rise to 0.200 atm . B. Find the total pressure after 110 s of reaction.

The decomposition of NO2(g) occurs by the following bimolecular elementary reaction. 2 NO2(g) → 2 NO(g)...

The decomposition of NO2(g) occurs by the following bimolecular elementary reaction. 2 NO2(g) → 2 NO(g) + O2(g) The rate constant at 273 K is 2.3 ✕ 10-12 L/mol · s, and the activation energy is 111 kJ/mol. How long will it take for the concentration of NO2(g) to decrease from an initial partial pressure of 4.0 atm to 2.4 atm at 451 K? Assume ideal gas behavior.

The decomposition of N2O5 is first order reaction. N2O5(g) decomposes to yield NO2 (g) and O2(g)....

The decomposition of N2O5 is first order reaction. N2O5(g) decomposes to yield NO2 (g) and O2(g). At 48 deg C the rate constant for the reaction is 1.2x10^-5 s^-1. Calculate the partial pressure of NO2(g) produced from 1.0L of 0.700M N2O5 solution at 48 degC over a period of 22 hours if the gas is collected in a 10.0L container

The oxidation of nitric oxide NO + 0.5 O2 --> NO2 takes place in an isothermal...

The oxidation of nitric oxide NO + 0.5 O2 --> NO2 takes place in an isothermal batch reactor. The reactor is charged with a mixture containing 20.0 volume percent NO and the balance air at an initial pressure of 380 kPa (absolute). (a) Assuming ideal-gas behavior, determine the composition of the mixture (component mole fractions) and the final pressure (kPa) if the conversion of NO is 90%. (b) Suppose the pressure in the reactor eventually equilibrates (levels out) at 360...

The reaction in which NO2 forms a dimer is second order in NO2 : 2NO2(g) --->...

The reaction in which NO2 forms a dimer is second order in NO2 : 2NO2(g) ---> N2O4(g) Rate = k [NO2]2 Calculate the rate constant for this reaction if it takes 0.0050 s for the initial concentration of NO2 to decrease from 0.50M to 0.25M.

A reaction of importance in the formation of smog is that between ozone and nitrogen monoxide...

A reaction of importance in the formation of smog is that between ozone and nitrogen monoxide described by O3(g)+NO(g)⟶O2(g)+NO2(g) The rate law for this reaction is rate of reaction=?[O3][NO] Given that ?=2.26×106 M−1⋅s−1 at a certain temperature, calculate the initial reaction rate when [O3] and [NO] remain essentially constant at the values [O3]0=7.82×10−6 M and [NO]0=7.71×10−5 M, owing to continuous production from separate sources. initial reaction rate: M⋅s−1 Calculate the number of moles of NO2(g) produced per hour per liter...

Dinitrogen pentoxide (N2O5) decomposes in chloroform as a solvent to yield NO2 and O2. The decomposition...

Dinitrogen pentoxide (N2O5) decomposes in chloroform as a solvent to yield NO2 and O2. The decomposition is first order with a rate constant at 45 ∘C of 1.0×10−5s−1. Part A Calculate the partial pressure of O2 produced from 1.69 L of 0.524 M N2O5 solution at 45 ∘C over a period of 16.2 h if the gas is collected in a 11.6-L container. (Assume that the products do not dissolve in chloroform.) Answer Pressure in terms of atm

Nitric oxide (NO) can catalyze ozone destruction through the catalytic process described below: NO + O3...

Nitric oxide (NO) can catalyze ozone destruction through the catalytic process described below: NO + O3 > NO2 + O2 (Reaction 1) NO2 + O > NO + O2 (Reaction 2) The reaction rate (how fast the reaction proceeds) is calculated as the product of the reaction rate constant k, and the respective concentrations of the reactants e.g. in the reaction A + B products, the reaction rate is given by Rate = d[A]/dt = d[B]/dt = k[A][B]. The reaction...