Write a rate law from the image below.
1A.) Write a rate law from the image below.
A. Rate = k [NO2]
B. Rate = k [NO2][F2]
C. Rate = k [NO2]2(F2]
1B.) What is the overall reaction?
A. 2 NO2 + F2 → 2 NO2
B. NO2 + F2 NO2F +F+ NO2
C. NO2 + F2 →2 NO2
1C. ) Write out the elementary steps, labeling the slow step and identifying any
intermediates.
HINT: elementary steps must add up to the overall reaction
Intermediate/s: _______
Catalyst/s: _______
Homework Answers
1. Write a rate law from the image below: TRANSITION STATES Ea(step 2) Ea(step 1) slow...
1. Write a rate law from the image below: TRANSITION STATES Ea(step 2) Ea(step 1) slow fast Potential energy NO2F+ F+NO2 2NO2 + F2 REACTANTS ΔΗ 'nxn <0 2NO2F PRODUCT Reaction progress A. Rate = k [NO2] B. Rate = k [NO2][F2] C. Rate = k [NO212[F2] 2. What is the overall reaction? A. 2 NO2 + F2 → 2 NO2F B. NO2 + F2 → NO2F +F + NO2 C. NO2 + F2 → 2 NO2F 3. Write out...
1. Write a rate law from the image below: TRANSITION STATES Ea(step 2) Ea(step 1) slow...
1. Write a rate law from the image below: TRANSITION STATES Ea(step 2) Ea(step 1) slow fast Potential energy NO2F+ F+NO2 2NO2 + F2 REACTANTS ΔΗ 'nxn <0 2NO2F PRODUCT Reaction progress A. Rate = k [NO2] B. Rate = k [NO2][F2] C. Rate = k [NO212[F2]
6. The rate law for the following reaction is rate=k[NO2] (F2]: 2NO2(g) + F2(g) → 2NO2F(g)...
6. The rate law for the following reaction is rate=k[NO2] (F2]: 2NO2(g) + F2(g) → 2NO2F(g) The mechanism proposed for this reaction is as follows: (i) NO2(g) + F2(g) → NO2F(g) + F(g) (ii) NO2(g) + F(g) → NO2F(g) Which elementary step is the rate-determining step in this reaction? Explain your answer in 1-2 sentences.
For the overall reaction below, which of the following is the correctly written rate law? Overall...
For the overall reaction below, which of the following is the correctly written rate law? Overall reaction: O3(g)+2NO2(g)→N2O5(g)+O2(g) Step 1: O3(g)+NO2(g)→NO3(g)+O2(g) slow Step 2: NO3(g)+NO2(g)→N2O5(g) fast View Available Hint(s) For the overall reaction below, which of the following is the correctly written rate law? Overall reaction: Step 1: slow Step 2: fast A.] Rate=k[O3][NO2]2 B.] Rate=k[O3][NO2] C.] Rate=k[NO3][NO2] D.] Rate=k[O3][NO2]2[N2O5][O2]
- The balanced equation for the reaction of nitrogen dioxide and fluorine is given below: 2...
- The balanced equation for the reaction of nitrogen dioxide and fluorine is given below: 2 NO2 + F2 - 2 NO2F The proposed mechanism is: step 1: NO2 + F2 - NO2F + F (slow) step 2: F + NO2 - NO2F (fast) Based on this information, the following observations are made: 1. The mechanism supports an experimentally determined rate law of rate - k[NO2121F2] II. F is an intermediate III. The reaction is first order in F2 Which...
To understand how elementary steps make up a mechanism and how the rate law for an...
To understand how elementary steps make up a mechanism and how the rate law for an elementary step can be determined. Very often, a reaction does not tell us the whole story. For instance, the reaction NO2(g)+CO(g)→NO(g)+CO2(g)NO2(g)+CO(g)→NO(g)+CO2(g) does not involve a collision between an NO2NO2 molecule and a COCO molecule. Based on experimental data at moderate temperatures, this reaction is thought to occur in the following two steps: NO2(g)+NO2(g)→NO3(g)+NO(g)NO2(g)+NO2(g)→NO3(g)+NO(g) NO3(g)+CO(g)→CO2(g)+NO2(g)NO3(g)+CO(g)→CO2(g)+NO2(g) Each individual step is called an elementary step. Together, these...
The balanced equation for the reaction of nitrogen dioxide and fluorine is given below: 2 NO2...
The balanced equation for the reaction of nitrogen dioxide and fluorine is given below: 2 NO2 + F2 → 2 NO2F The proposed mechanism is: step 1: NO2 + F2 → NO2F + F (slow) step 2: F + NO2 → NO2F (fast) Based on this information, the following observations are made: I. The mechanism supports an experimentally determined rate law of rate = k[NO2]2[F2] II. F is an intermediate III. The reaction is first order in F2 Which of...
The rate law for the reaction 2 NO2 (g) + F2 (g) → 2 NO2F (g)...
The rate law for the reaction 2 NO2 (g) + F2 (g) → 2 NO2F (g) is rate = K[NO2][F2]. Which of the following will lead to a change in the rate constant, k? The pressure of NO2 is decreased by 1/2 OA: k changeslo B: k does not change The volume of the container is doubled IOA: k changes o B: k does not change The temperature of the reaction is decreased O A: k changesloB: k does not...
Suppose the reaction between nitric oxide and oxygen proceeds by the following mechanism: rate constant elementary...
Suppose the reaction between nitric oxide and oxygen proceeds by the following mechanism: rate constant elementary reaction step NO(g)+ 02(g) NO2(9) 0(g) 1 NO(g) O(g) NO2(9) k2 2 Suppose also k,»k,. That is, the first step is much faster than the second. 2* Write the balanced chemical equation for the overall chemical reaction: Write the experimentally observable rate law for the overall chemical reaction rate k Note: your answer should not contain the concentrations of any intermediates. Express the rate...
A reaction mechanism is defined as the sequence of reaction steps that define the pathway from...
A reaction mechanism is defined as the sequence of reaction steps that define the pathway from reactants to products. Each step in a mechanism is an elementary reaction, which describes a single molecular event of usually one or two molecules interacting. The rate law for an overall reaction is the rate law for the slowest step in the mechanism, which is directly related to the stoichiometric coefficients of the reactants. The exception to this rule occurs when the slowest step...
1. Write a rate law from the image below: TRANSITION STATES Ea(step 2) Ea(step 1) slow fast Potential energy NO2F+ F+NO2 2NO2 + F2 REACTANTS ΔΗ 'nxn <0 2NO2F PRODUCT Reaction progress A. Rate = k [NO2] B. Rate = k [NO2][F2] C. Rate = k [NO212[F2] 2. What is the overall reaction? A. 2 NO2 + F2 → 2 NO2F B. NO2 + F2 → NO2F +F + NO2 C. NO2 + F2 → 2 NO2F 3. Write out...
1. Write a rate law from the image below: TRANSITION STATES Ea(step 2) Ea(step 1) slow fast Potential energy NO2F+ F+NO2 2NO2 + F2 REACTANTS ΔΗ 'nxn <0 2NO2F PRODUCT Reaction progress A. Rate = k [NO2] B. Rate = k [NO2][F2] C. Rate = k [NO212[F2]
6. The rate law for the following reaction is rate=k[NO2] (F2]: 2NO2(g) + F2(g) → 2NO2F(g) The mechanism proposed for this reaction is as follows: (i) NO2(g) + F2(g) → NO2F(g) + F(g) (ii) NO2(g) + F(g) → NO2F(g) Which elementary step is the rate-determining step in this reaction? Explain your answer in 1-2 sentences.
- The balanced equation for the reaction of nitrogen dioxide and fluorine is given below: 2 NO2 + F2 - 2 NO2F The proposed mechanism is: step 1: NO2 + F2 - NO2F + F (slow) step 2: F + NO2 - NO2F (fast) Based on this information, the following observations are made: 1. The mechanism supports an experimentally determined rate law of rate - k[NO2121F2] II. F is an intermediate III. The reaction is first order in F2 Which...
The rate law for the reaction 2 NO2 (g) + F2 (g) → 2 NO2F (g) is rate = K[NO2][F2]. Which of the following will lead to a change in the rate constant, k? The pressure of NO2 is decreased by 1/2 OA: k changeslo B: k does not change The volume of the container is doubled IOA: k changes o B: k does not change The temperature of the reaction is decreased O A: k changesloB: k does not...
Suppose the reaction between nitric oxide and oxygen proceeds by the following mechanism: rate constant elementary reaction step NO(g)+ 02(g) NO2(9) 0(g) 1 NO(g) O(g) NO2(9) k2 2 Suppose also k,»k,. That is, the first step is much faster than the second. 2* Write the balanced chemical equation for the overall chemical reaction: Write the experimentally observable rate law for the overall chemical reaction rate k Note: your answer should not contain the concentrations of any intermediates. Express the rate...
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