Rate Laws: Reaction Mechanisms

Reaction Mechanisms

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For the reaction:

2NOCl(g)⟶2NO(g)+Cl2(g)Rateexp=k[NOCl]22NOCl(g)⟶2NO(g)+Cl_2 (g)\qquad Rate_{exp}=k[NOCl]^22NOCl(g)⟶2NO(g)+Cl2​(g)Rateexp​=k[NOCl]2

The following three mechanisms have been proposed :
  
NOCl(g)⟶NO(g)+Cl(g)slowICl(g)+NOCl(g)⟶NOCl2(g)fastNOCl2(g)+NO(g)⟶2NO(g)+Cl2(g)fast\def\arraystretch{1.5}
   \begin{array}{c:cc}
& NOCl(g)⟶NO(g)+Cl(g)	& \rm slow \\
	I&Cl(g)+NOCl(g)⟶NOCl_2 (g)	& \rm fast\\
	& NOCl_2 (g)+NO(g)⟶2NO(g)+Cl_2 (g)	& \rm fast
\end{array}I​NOCl(g)⟶NO(g)+Cl(g)Cl(g)+NOCl(g)⟶NOCl2​(g)NOCl2​(g)+NO(g)⟶2NO(g)+Cl2​(g)​slowfastfast​

II2NOCl(g)⟶NOCl2(g)+NO(g)slowNOCl2(g)⟶NO(g)+Cl2(g)fastII \quad \def\arraystretch{1.5}
   \begin{array}{:cc}
 2NOCl(g)⟶NOCl_2 (g)+NO(g)	& \rm slow \\
	NOCl_2 (g)⟶NO(g)+Cl_2 (g)	& \rm fast

\end{array}II2NOCl(g)⟶NOCl2​(g)+NO(g)NOCl2​(g)⟶NO(g)+Cl2​(g)​slowfast​

IIINOCl(g)+NOCl(g)⟶Cl2(g)+2NO(g)slow\def\arraystretch{1.5}
   \begin{array}{c:cc}
III & NOCl(g)+NOCl(g)⟶Cl_2 (g)+2NO (g)	&\rm slow
\end{array}III​NOCl(g)+NOCl(g)⟶Cl2​(g)+2NO(g)​slow​

Identify which mechanisms are consistent with the given experimental rate law. Select all that apply. 

I

II

III

I don't know

More Reaction Mechanisms Questions:

The decomposition of ozone to oxygen gas can also occur in the presence of chlorine atoms. A proposed mechanism for this exothermic reaction is as follows:
Cℓ(g)+O3(g)→CℓO(g)+O2(g)slowO3(g)→O(g)+O2(g)fastCℓO(g)+O(g)→Cℓ(g)+O2(g)fast\begin{aligned}&C\ell(g)+O_3(g)\rightarrow C\ell O(g)+O_2(g)&slow\\
&O_3(g)\rightarrow O(g)+O_2(g)&fast \\&C\ell O(g)+O(g)\rightarrow C\ell(g)+O_2(g)&fast\end{aligned}​Cℓ(g)+O3​(g)→CℓO(g)+O2​(g)O3​(g)→O(g)+O2​(g)CℓO(g)+O(g)→Cℓ(g)+O2​(g)​slowfastfast​
Which of these statements about this reaction is true?

The decomposition of ozone to oxygen gas can also occur in the presence of chlorine atoms. A proposed mechanism for this exothermic reaction is as follows:
Cℓ(g)+O3(g)→CℓO(g)+O2(g)slowO3(g)→O(g)+O2(g)fastCℓO(g)+O(g)→Cℓ(g)+O2(g)fast\begin{aligned}&C\ell(g)+O_3(g)\rightarrow C\ell O(g)+O_2(g)&slow\\
&O_3(g)\rightarrow O(g)+O_2(g)&fast \\&C\ell O(g)+O(g)\rightarrow C\ell(g)+O_2(g)&fast\end{aligned}​Cℓ(g)+O3​(g)→CℓO(g)+O2​(g)O3​(g)→O(g)+O2​(g)CℓO(g)+O(g)→Cℓ(g)+O2​(g)​slowfastfast​
Which of these statements about this reaction is true?

A proposed mechanism for the reaction of NO2 with CO is shown below. Which of the given rate laws would accurately describe a reaction with this mechanism?
NO2(g)+NO2(g)→NO3(g)+NO(g)slowNO3(g)+CO(g)→NO2(g)+CO2(g)fastNO2(g)+CO(g)→NO(g)+CO2(g)overall\def\arraystretch{1.5}
   \begin{array}{cc}
   NO_2(g)+NO_2(g)\to NO_3(g)+NO(g) & slow  \\ 
   NO_3(g)+CO(g)\to NO_2 (g) +CO_2 (g) & fast  \\
   \hline
   NO_2(g)+CO(g)\to NO(g)+CO_2(g) & overall
\end{array}NO2​(g)+NO2​(g)→NO3​(g)+NO(g)NO3​(g)+CO(g)→NO2​(g)+CO2​(g)NO2​(g)+CO(g)→NO(g)+CO2​(g)​slowfastoverall​​

Practice: Reaction Mechanisms

For the reaction:
2NOCl(g)⟶2NO(g)+Cl2(g)Rateexp=k[NOCl]22NOCl(g)⟶2NO(g)+Cl_2 (g)\qquad Rate_{exp}=k[NOCl]^22NOCl(g)⟶2NO(g)+Cl2​(g)Rateexp​=k[NOCl]2
The following three mechanisms have been proposed :

Collision Theory: Ozone

The decomposition of ozone to oxygen gas can also occur in the presence of chlorine atoms. A proposed mechanism for this exothermic reaction is as follows:
Cℓ(g)+O3(g)→CℓO(g)+O2(g)slowO3(g)→O(g)+O2(g)fastCℓO(g)+O(g)→Cℓ(g)+O2(g)fast\begin{aligned}&C\ell(g)+O_3(g)\rightarrow C\ell O(g)+O_2(g)&slow\\
&O_3(g)\rightarrow O(g)+O_2(g)&fast \\&C\ell O(g)+O(g)\rightarrow C\ell(g)+O_2(g)&fast\end{aligned}​Cℓ(g)+O3​(g)→CℓO(g)+O2​(g)O3​(g)→O(g)+O2​(g)CℓO(g)+O(g)→Cℓ(g)+O2​(g)​slowfastfast​
Which of these statements about this reaction is true?

A proposed mechanism for the reaction of NO2 with CO is shown below. Which of the given rate laws would accurately describe a reaction with this mechanism?
NO2(g)+NO2(g)→NO3(g)+NO(g)slowNO3(g)+CO(g)→NO2(g)+CO2(g)fastNO2(g)+CO(g)→NO(g)+CO2(g)overall\def\arraystretch{1.5}
   \begin{array}{cc}
   NO_2(g)+NO_2(g)\to NO_3(g)+NO(g) & slow  \\ 
   NO_3(g)+CO(g)\to NO_2 (g) +CO_2 (g) & fast  \\
   \hline
   NO_2(g)+CO(g)\to NO(g)+CO_2(g) & overall
\end{array}NO2​(g)+NO2​(g)→NO3​(g)+NO(g)NO3​(g)+CO(g)→NO2​(g)+CO2​(g)NO2​(g)+CO(g)→NO(g)+CO2​(g)​slowfastoverall​​

 The proposed mechanism for a reaction is: 
A(g)+B(g)↔X(g)(Fast)A_{(g)}+B_{(g)} \leftrightarrow X_{(g)}(Fast)A(g)​+B(g)​↔X(g)​(Fast)
X(g)+C(g)↔Y(g)(Slow)X_{(g)} +C_{(g)}\leftrightarrow Y_{(g)}(Slow)X(g)​+C(g)​↔Y(g)​(Slow)

Reaction mechanisms: Rate law

The rate law for the overall reaction A + 2B → E was experimentally determined to be: Rate = k[A]2[B]
Which of these proposed mechanisms could explain this observed rate law?

Hydrogen spontaneously decomposes into two hydrogen atom radicals. One of these radicals reacts with an equivalent of fluorine gas to form one equivalent of HF and one fluorine atom. This fluorine atom reacts with a hydrogen atom to form another equivalent of HF. Write the mechanism of this reaction as series of elementary steps. Assign the molecularity of each step and write the overall reaction.

Collision Theory: Molecularity

Hydrogen spontaneously decomposes into two hydrogen atom radicals. One of these radicals reacts with an equivalent of fluorine gas to form one equivalent of HF and one fluorine atom. This fluorine atom reacts with a hydrogen atom to form another equivalent of HF. Write the mechanism of this reaction as series of elementary steps. Assign the molecularity of each step and write the overall reaction.

Rate Laws: Reaction Mechanisms

Related Topics

Reaction Mechanisms

More Reaction Mechanisms Questions:

Practice: Reaction Mechanisms

Collision Theory: Ozone

Reaction mechanisms: Rate law

Collision Theory: Molecularity