Nitric oxide reacts rapidly with unstable nitrogen trioxide (NO3) to form NO2
Nitric oxide reacts rapidly with unstable nitrogen trioxide (NO3) to form NO2 Nitric oxide reacts rapidly...
please help 10 Question (1 point) Nitric oxide reacts rapidly with unstable nitrogen trioxide (NO3) to form NO2 NO(g) + NO3(g) 2NO2(g) Calculate the numeric value of the rate constant for the above reaction from the data in the table below. Initial Reaction Rates for the Formation of NO2 by the Reaction of NO with NO3 at 298 K. Experiment (NO). (M) [NO3lo (M) Initial Reaction Rate (M/s) 1.00x103 1.00x10-3 2.00x104 2 2.00x10-3 1.00×10-3 4.00x 104 3 2.00x103 2.00x10 3...
Nitric oxide reacts rapidly with unstable nitrogen trioxide (NO3) to form NO2: NO(g) + NO3(g) → 2NO2(g) Calculate the numeric value of the rate constant for the above reaction from the data in the table below. Initial Reaction Rates for the Formation of NO2 by the Reaction of NO with NO3 at 298K
Nitric oxide reacts rapidly with unstable nitrogen trioxide (NO3) to form NO2: NO(g) +NO2(g) →→ 2NO, (g) Calculate the numeric value of the rate constant for the above reaction from the data in the table below. Initial Reaction Rates for the Formation of NO2 by the Reaction of NO with NO3 at 298 K. Experiment[NO]. (M) [NO3](M) Initial Reaction Rate (M/s) 1.60x10-3 1.60x10-3 3.20x104 3.20x10-3 1.60*10-3 6.40x104 3.20x10-3 3.20x10-3 128000 The rate constant, k, is x 10 M-Is-1-
Nitric oxide (NO) reacts with oxygen gas to form nitrogen dioxide (NO2), a dark-brown gas: 2NO(g) + O2(8) - 2NO2(8) In one experiment 1.075 mole of NO is mixed with 0.722 mole of O2. Calculate which of the two reactants is the limiting reagent, and report the number of moles of NO2 produced.
carbon monoxide reacts with nitrogen dioxide to produce carbon dioxide and nitric oxide as given by the following reaction. CO (g) + NO2 (g) → CO2 (g) + NO (g) The reaction is zeroth order in CO and second order in NO2, and second order overall. The rate constant for this reaction at 175ºC is 7.58 × 10-4 L mol-1 s-1. If the initial concentration of NO2 was 0.565 M, what is the molar concentration of NO2 after 5.8 minutes?...
QUESTION 1 (10) Nitric oxide reacts with oxygen to form nitrogen dioxide: 2NO(g) + O2(g) + 2NO2 (g) a) What is the Kc for the reaction if the equilibrium concentration of NO is 0.300 M, O2 is 0.200 M, and NO2 is 0.530 M at 25°C? b) What is the Kp for the same reaction? c) If the equilibrium re-establishes where [NO]=0.150 M and [02]-0.225 M, what is [NO2) at this point under the same temperature? 2(12) The equilibrium constant...
Nitrogen dioxide reacts with carbon monoxide to produce nitric oxide as follows: NO2 (9) + CO (9) ► NO (9) + CO2 (g) The reaction is second order in NO2, zeroth order in CO and second order overall. How long (in hours) will it take for NO2 to decompose by 35.8% given the initial concentration was 0.43 M NO2 and CO was in excess. The rate constant for this reaction at 225°C is 2.08 x 10-4 L/mol/s. Report your answer...
1. For the reaction of nitric oxide (NO) and oxygen to form nitrogen dioxide, if molecular oxygen is reacting at the rate of 0.00072 M/s, what is the rate (in M/s) of nitric oxide reacting? 2. For the reaction of nitric oxide (NO) and oxygen to form nitrogen dioxide, if molecular oxygen is reacting at the rate of 0.00697 M/s, what is the rate (in M/s) of nitrogen dioxide being formed?
5.20 In the troposphere NO reacts with O3 to produce NO2 and O2, Nitric oxide also reacts. with the hydroperoxyl (HO2) radical to produce NO2 and OH. In turn, NO2 is photolyzed rapidly to produce NO and atomic oxygen. The atomic oxygen quickly combines with O2 (when aided by an inert molecule M) to produce O3. (a) Write down balanced chemical equations to represent each of these four chemical reactions. (b) Write down differential equations to represent the time dependencies...
The reaction between nitric oxide (nitrogen monoxide) and oxygen gives nitrogen dioxide according to the stoichiometric equation. 2 NO(g) 02(g)2 NO2(g) 1. Write the rate law expected if the reaction was found to occur in a single step The reaction is observed to be complex with the following mechanism is proposed: 2 NO N202 N202 2 NO N202 +02 → 2NO2 k2 kı k. -1 2. Use the steady state approximation to obtain the expression for the formation of NO2....