Assume the following reaction 3H_2+CO→CH_4+H_2O occurs by the given reaction …

The Rate Law

8 Activities

Assume the following reaction  3H2+CO→CH4+H2O3H_2+CO→CH_4+H_2O3H2​+CO→CH4​+H2​O  occurs by the given reaction mechanism. The rate law expression must be rate = ______________. 
Step1H2+CO→H2COslowStep2H2+H2CO→CH4+OfastStep3H2+O→H2OfastOverall3H2+CO→CH4+H2O\def\arraystretch{1.5}
\begin{array}{c}
Step 1 &H_2+CO→H_2 CO&slow  \\ 
Step 2 & H_2+H_2 CO→CH_4+O & fast \\
Step 3& H_2+O→H_2 O& fast \\
\hline
Overall&3H_2+CO→CH_4+H_2 O  \\ 
\end{array}Step1Step2Step3Overall​H2​+CO→H2​COH2​+H2​CO→CH4​+OH2​+O→H2​O3H2​+CO→CH4​+H2​O​slowfastfast​​

k[H2]2[CO]2k[H_2]^2[CO]^2k[H2​]2[CO]2

k[H2]2[CO]k[H_2]^2[CO]k[H2​]2[CO]

k[H2][CO]2k[H_2][CO]^2k[H2​][CO]2

k[H2][CO]k[H_2][CO]k[H2​][CO]

k[H2]2[CO]3k[H_2]^2[CO]^3k[H2​]2[CO]3

I don't know

Rate Laws: Concentration

The reaction A + 2B → products was found to follow the rate law: rate = k[A]2[B]. Predict by what factor the rate of reaction will increase when the concentration of A is doubled, the concentration of B is tripled, and the temperature remains constant.

Rate Laws: Relative Rates of Reactions

Consider the balanced chemical equation for the reaction
2CO(g)+O2(g)⟶2CO2(g)Rate=k[CO]22CO(g)+O_2(g)⟶2CO_2(g)\qquad Rate=k[CO]^22CO(g)+O2​(g)⟶2CO2​(g)Rate=k[CO]2
If the rate of the reaction is 3.2 M/s which of the following 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​​

 Given the following data for the NH4++NO2−→N2+2H2ONH_4^++NO_2^-→N_2+2H_2ONH4+​+NO2−​→N2​+2H2​O reaction, the rate law for the reaction is 
Trial[NH4+][NO2–]Rate10.010M0.030M0.020M/s20.0150.0300.03030.0100.0150.005\def\arraystretch{1.5}
\begin{array}{c}
Trial &[NH_4^+] &[NO_2^–]& Rate  \\ 
\hline
1 & 0.010 M & 0.030 M  &0.020 M/s \\
2& 0.015& 0.030  &0.030 \\
3&0.010 &  0.015 &0.005 \\ 
\end{array}Trial123​[NH4+​]0.010M0.0150.010​[NO2–​]0.030M0.0300.015​Rate0.020M/s0.0300.005​​

 Assume the following reaction occurs by the given reaction mechanism.  
3H2+CO→CH4+H2O3H_2 +CO \to CH_4+H_2O3H2​+CO→CH4​+H2​O
                   Step 1                                H2+CO→H2COH_2 +CO \to H_2COH2​+CO→H2​CO              Slow

Rate Laws: Concentration

The reaction A + 2B → products was found to follow the rate law: rate = k[A]2[B]. Predict by what factor the rate of reaction will increase when the concentration of A is doubled, the concentration of B is tripled, and the temperature remains constant.

Rate Laws

The reaction A + 2B → products has been found to have the rate law, rate = k[A][B]2 . While holding the concentration of A constant, the concentration of B is increased from x to 3x . Predict by what factor the rate of reaction increases.

Rate Laws: Relative Rates of Reactions

Consider the balanced chemical equation for the reaction
2CO(g)+O2(g)⟶2CO2(g)Rate=k[CO]22CO(g)+O_2(g)⟶2CO_2(g)\qquad Rate=k[CO]^22CO(g)+O2​(g)⟶2CO2​(g)Rate=k[CO]2
If the rate of the reaction is 3.2 M/s which of the following is TRUE.

For the following elementary reactions apply the Law of mass balance to write a rate law, What is the overall order of the reaction? (Enter answer as 1st, 2nd, 3rd etc)
a) B2H6→2 BH3\rm B_2H_6\quad\overrightarrow{\hspace{1.5cm}}\quad 2\ BH_3B2​H6​2 BH3​
b) Xe+F2→XeF2\rm Xe\quad+\quad F_2\quad\overrightarrow{\hspace{1.5cm}}\quad XeF_2Xe+F2​XeF2​

 Hydrofluoric acid, HF, is a weak acid which exists as a gas. However HF is incredibly corrosive and can dissolve porcelain, metal, wood etc. Aqueous solutions of HF are featured on Breaking Bad as a method for disposing of bodies. If light is shone on HF in the gas phase it rapidly decomposes to H2 and F2 by the following mechanism. 
aaa2HF→H2+F2aaa‾\underline{\textcolor{white}{aaa}2HF \to H_2+F_2\textcolor{white}{aaa}}aaa2HF→H2​+F2​aaa​
HF→k1⋅H+⋅FHF \xrightarrow{k_1} \cdot H + \cdot FHFk1​​⋅H+⋅F

Which of the following has NO EFFECT on the rate of a zero-order reaction

Write a general rate law for the following elementary reactions
CH4→⋅CH3+⋅H\rm CH_{4}\quad\overrightarrow{\hspace{1.5cm}}\quad \cdot CH_{3}\quad+\quad \cdot HCH4​⋅CH3​+⋅H
⋅Br+⋅Br→Br2\rm \cdot Br\quad+\quad \cdot Br\quad\overrightarrow{\hspace{1.5cm}}\quad  Br_{2}⋅Br+⋅BrBr2​

The Rate Law

The graph below describes the reaction 
A→BA \rightarrow BA→B
What is the slope of this line?

Determine an empirical rate law for the following reaction using the kinetic data collected at 298 K298\ K298 Kand evaluate the rate constant kkk.  Report your k value with 2 sig figs and no units.
2 Fe+Al2O3+6 HCl→Fe2O3+2 AlCl3+3 H2O\rm 2\ Fe\quad+\quad Al_2O_3\quad+\quad6\ HCl\quad\overrightarrow{\hspace{1.5cm}}\quad Fe_2O_3\quad+\quad2\ AlCl_3\quad+\quad3\ H_2O2 Fe+Al2​O3​+6 HClFe2​O3​+2 AlCl3​+3 H2​O
Run[Fe]0[Al2O3]0[HCl]0initial rate11.0 M1.0 M1.0 M0.02021.0 M2.0 M1.0 M0.08032.0 M1.0 M1.0 M0.02043.0 M2.0 M2.0 M0.160\begin{array}{|c|c|c|c|c|}\hline
\rm Run & \rm [Fe]_0 & \rm [Al_2O_3]_0 & \rm [HCl]_0 &\rm initial\ rate\\\hline
1& 1.0\ M& 1.0\ M& 1.0\ M& 0.020\\\hline
2 &1.0\ M& 2.0\ M& 1.0\ M& 0.080\\\hline
3 &2.0\ M& 1.0\ M& 1.0\ M& 0. 020\\\hline
4 &3.0\ M &2.0\ M& 2.0\ M& 0.160\\\hline
\end{array}Run1234​[Fe]0​1.0 M1.0 M2.0 M3.0 M​[Al2​O3​]0​1.0 M2.0 M1.0 M2.0 M​[HCl]0​1.0 M1.0 M1.0 M2.0 M​initial rate0.0200.0800.0200.160​​

Determining Rate Law Exponents

 The following data was gathered for the reaction:  
2A+B+2D→E+2F2A+B+2D\to E+2F2A+B+2D→E+2F
 Find the rate law exponents and the rate constant for this reaction.   Report your exponents as integers and your rate constant to two significant figures without units in the answer field.

Determining Reaction Order

Use the rate data provided to determine an experimental rate law for the following reaction.
CH3MgBr+H2O→CH4+HOMgBr\rm CH_3MgBr\quad+\quad H_2O\quad\overrightarrow{\hspace{1.5cm}}\quad CH_4\quad+\quad HOMgBrCH3​MgBr+H2​OCH4​+HOMgBr
Run[CH3MgBr]0[H2O]0initial rate10.4 M0.2 M0.012320.8 M0.2 M0.047830.8 M0.4 M0.0948\begin{array}{|c|c|c|c|}\hline
\rm Run &\rm [CH_3MgBr]_0 & \rm [H_2O]_0 & \rm initial\ rate\\\hline
1 & 0.4\ M & 0.2\ M & 0.0123\\\hline
2  & 0.8\ M & 0.2\ M & 0.0478\\\hline
3 & 0.8 \ M & 0.4\ M & 0.0948\\\hline
\end{array}Run123​[CH3​MgBr]0​0.4 M0.8 M0.8 M​[H2​O]0​0.2 M0.2 M0.4 M​initial rate0.01230.04780.0948​​

 Given the following data for the NH4++NO2−→N2+2H2ONH_4^+ +NO_2^- \to N_2+2H_2ONH4+​+NO2−​→N2​+2H2​O reaction  
 The rate law for the reaction is 

 Assume the following reaction  
3H2+CO→CH4+H2O3H_2 +CO \to CH_4+H_2O3H2​+CO→CH4​+H2​O
 occurs by the given reaction mechanism.  

 The  gas-phase reaction 2NO+2NH2→N2+2H2O2NO+2NH_2 \to N_2+2H_2O2NO+2NH2​→N2​+2H2​O has the following rate law expression, rate = (0.14 L2 mol2 s-2 )[NO]2 [H2]. If the [NO] is 0.95 M and the [H2] is 0.45 M, what rate is expected?  

The Rate Law

For the dimerization of butadiene: 
2𝐶4𝐻6(𝑔)→𝐶8𝐻12(𝑔)Rate=k[𝐶4𝐻6]2𝐶_4𝐻_6 (𝑔) \to𝐶_8𝐻_{12} (𝑔) \qquad Rate = k [𝐶_4𝐻_6] 2C4​H6​(g)→C8​H12​(g)Rate=k[C4​H6​]
The units of the reaction rate are: 

The Rate Law

Two reactions are both described by the equation A → products. Reaction 1 is first order with respect to [A], and Reaction 2 is second order with respect to [A]. Which option below correctly describes the initial rates of these reactions when [A] = 0.100 M?

Consider the reaction: 2A + B → C. If we determine experimentally that the overall order of this reaction is 2, which of the following options could be the differential rate law for this reaction? Select all that apply.

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​​

 Given the following data for the NH4++NO2−→N2+2H2ONH_4^++NO_2^-→N_2+2H_2ONH4+​+NO2−​→N2​+2H2​O reaction, the rate law for the reaction is 
Trial[NH4+][NO2–]Rate10.010M0.030M0.020M/s20.0150.0300.03030.0100.0150.005\def\arraystretch{1.5}
\begin{array}{c}
Trial &[NH_4^+] &[NO_2^–]& Rate  \\ 
\hline
1 & 0.010 M & 0.030 M  &0.020 M/s \\
2& 0.015& 0.030  &0.030 \\
3&0.010 &  0.015 &0.005 \\ 
\end{array}Trial123​[NH4+​]0.010M0.0150.010​[NO2–​]0.030M0.0300.015​Rate0.020M/s0.0300.005​​

Rate Law

For the following elementary reactions apply the Law of mass balance and write a rate law.
Xe+F2→XeF2Xe+F_2\rightarrow XeF_2Xe+F2​→XeF2​

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?

Integrated Rate Laws

Suppose you were measuring the concentration of NOBr during this reaction:
2NOBr→2NO+Br22 NOBr → 2 NO + Br_22NOBr→2NO+Br2​
The reaction is first-order with respect to [NOBr]; the initial concentration of [NOBr]0 = 0.50M.

Chemical reaction: Rate Law

Consider the reaction given below and its experientially determined rate law. Which of the following statements is correct?
2H2(g)+2NO(g)→N2(g)+2H2O(g)        Rate=k[H2][NO]22H_2(g)+2NO(g)\to N_2(g)+2H_2O(g)\ \ \ \ \ \ \ \ Rate=k[H_2][NO]^22H2​(g)+2NO(g)→N2​(g)+2H2​O(g)        Rate=k[H2​][NO]2

The Rate law

For the reaction: BrO3−+5Br−+6H+→3Br2+3H2OBrO_3^-+5Br^-+6H^+\to3Br_2+3H_2OBrO3−​+5Br−+6H+→3Br2​+3H2​O at a particular time, the rate of disappearance of Br- was 7.5 x 10-2 M/s. What is the rate of disappearance of BrO3- at the same instant?

The Rate Law: Half life

Radioactive plutonium Pu-241 has a half-life of 14.4 years and decays by a 1st order process. If 25 kg of Pu-241, waste from a nuclear reactor, is stored at a disposal site, how long will it take for the amount of Pu-241 to be reduced to 1 kg?

The Rate Law: Stoichiometry

If N2 is consumed at 2 M/s, what is the production rate of NH3 and consumption rate of H2 in the reaction?
           N2  + 3H2 → 2 NH3N_2\ \ +\ 3H_2\ \rightarrow\ 2\ NH_3N2​  + 3H2​ → 2 NH3​

The Rate Law

For a hydrogenation reaction involving H2, plotting 1/[H2] versus time produces a straight line graph. What is the order of hydrogen in this reaction.

Chemical Kinetics

Determine the order of each reactant and the overall order for the following rate laws.
a) 𝑣 = 𝑘[𝑁𝑂][𝐶]2
b) 𝑣 = 𝑘[𝑂3]1

Determining Reaction Order

Use the rate data provided to determine an experimental rate law for the following reaction.
CH3MgBr+H2O→CH4+HOMgBr\rm CH_3MgBr\quad+\quad H_2O\quad\overrightarrow{\hspace{1.5cm}}\quad CH_4\quad+\quad HOMgBrCH3​MgBr+H2​OCH4​+HOMgBr
Run[CH3MgBr]0[H2O]0initial rate10.4 M0.2 M0.012320.8 M0.2 M0.047830.8 M0.4 M0.0948\begin{array}{|c|c|c|c|}\hline
\rm Run &\rm [CH_3MgBr]_0 & \rm [H_2O]_0 & \rm initial\ rate\\\hline
1 & 0.4\ M & 0.2\ M & 0.0123\\\hline
2  & 0.8\ M & 0.2\ M & 0.0478\\\hline
3 & 0.8 \ M & 0.4\ M & 0.0948\\\hline
\end{array}Run123​[CH3​MgBr]0​0.4 M0.8 M0.8 M​[H2​O]0​0.2 M0.2 M0.4 M​initial rate0.01230.04780.0948​​

Determining Rate Law Exponents

 The following data was gathered for the reaction:  
2A+B+2D→E+2F2A+B+2D\to E+2F2A+B+2D→E+2F
 Find the rate law exponents and the rate constant for this reaction.  

Rate Law

For the following elementary reactions apply the Law of mass balance and write a rate law.
B2H6→2BH3B_2H_6\rightarrow 2 BH_3B2​H6​→2BH3​

The reaction A + 2B → products was found to follow the rate law: rate = k[A]2[B]. Predict by what factor the rate of reaction will increase when the concentration of A is doubled, the concentration of B is tripled, and the temperature remains constant.

By what factor does the rate change in each of the following cases? 
 A reaction is first order in A, and [A] is doubled 
 A reaction is second order in B, and [B] is halved 

Determine an empirical rate law for the following reaction using the kinetic data collected at 298 K298\ K298 K
and evaluate the rate constant kkk.
2 Fe+Al2O3+6 HCl→Fe2O3+2 AlCl3+3 H2O\rm 2\ Fe\quad+\quad Al_2O_3\quad+\quad6\ HCl\quad\overrightarrow{\hspace{1.5cm}}\quad Fe_2O_3\quad+\quad2\ AlCl_3\quad+\quad3\ H_2O2 Fe+Al2​O3​+6 HClFe2​O3​+2 AlCl3​+3 H2​O

Determining Reaction Order

Use the rate data provided to determine an experimental rate law for the following reaction.
CH3MgBr+H2O→CH4+HOMgBr\rm CH_3MgBr\quad+\quad H_2O\quad\overrightarrow{\hspace{1.5cm}}\quad CH_4\quad+\quad HOMgBrCH3​MgBr+H2​OCH4​+HOMgBr
Run[CH3MgBr]0[H2O]0initial rate10.4 M0.2 M0.012320.8 M0.2 M0.047830.8 M0.4 M0.0948\begin{array}{|c|c|c|c|}\hline
\rm Run &\rm [CH_3MgBr]_0 & \rm [H_2O]_0 & \rm initial\ rate\\\hline
1 & 0.4\ M & 0.2\ M & 0.0123\\\hline
2  & 0.8\ M & 0.2\ M & 0.0478\\\hline
3 & 0.8 \ M & 0.4\ M & 0.0948\\\hline
\end{array}Run123​[CH3​MgBr]0​0.4 M0.8 M0.8 M​[H2​O]0​0.2 M0.2 M0.4 M​initial rate0.01230.04780.0948​​

Determining Rate Law Exponents

 The following data was gathered for the reaction:  
2A+B+2D→E+2F2A+B+2D\to E+2F2A+B+2D→E+2F
Choose the correct rate law. For a bonus mark, solve for the rate constant (include units). 

Determine an empirical rate law for the following reaction using the kinetic data collected at 298 K and evaluate the rate constant k.
A+B+C⟶Pr⁡oductsA+B+C⟶\Pr oductsA+B+C⟶Products
[A]0(M)[B]0(M)[C]0(M)Initial Rate(M/s)0.1510.2130.3980.4800.2510.1050.3250.3560.1510.2130.5251.1020.1510.2500.4800.988\def\arraystretch{1.5}
\begin{array}{c}
\hline
[A]_0 (M) &[B]_0 (M) &[C]_0 (M)&Initial \ Rate (M/s)  \\ 
\hline
0.151 & 0.213 & 0.398  &0.480 \\
0.251& 0.105& 0.325  &0.356 \\
0.151&0.213 &  0.525 &1.102 \\ 
0.151&0.250 &0.480 &0.988 \\
\hline
\end{array}[A]0​(M)0.1510.2510.1510.151​[B]0​(M)0.2130.1050.2130.250​[C]0​(M)0.3980.3250.5250.480​Initial Rate(M/s)0.4800.3561.1020.988​​

Determine an empirical rate law for the following reaction using the kinetic data collected at 298 K298\ K298 K
and evaluate the rate constant kkk.
2 Fe+Al2O3+6 HCl→Fe2O3+2 AlCl3+3 H2O\rm 2\ Fe\quad+\quad Al_2O_3\quad+\quad6\ HCl\quad\overrightarrow{\hspace{1.5cm}}\quad Fe_2O_3\quad+\quad2\ AlCl_3\quad+\quad3\ H_2O2 Fe+Al2​O3​+6 HClFe2​O3​+2 AlCl3​+3 H2​O

 The following data tracking the concentration of reactant A was collected: 
 What is the order of this process with respect to A? Estimate the rate constant 

 Phosgene is a toxic gas prepared by the reaction of carbon monoxide with chlorine: 
CO(g)+Cl2(g)→COCl2(g)CO_{(g)}+Cl_{2(g)}\to COCl_{2(g)}CO(g)​+Cl2(g)​→COCl2(g)​
 The following data was obtained in a kinetics study of this reaction: 

 Assume the following reaction  
3H2+CO→CH4+H2O3H_2 +CO \to CH_4+H_2O3H2​+CO→CH4​+H2​O
 occurs by the given reaction mechanism.  

Assume the following reaction 3H_2+CO→CH_4+H_2O occurs by the given reaction …

Related Topics

The Rate Law

More The Rate Law Questions:

Rate Laws: Concentration

Rate Laws: Relative Rates of Reactions

Rate Laws: Concentration

Rate Laws

Rate Laws: Relative Rates of Reactions

The Rate Law

Determining Rate Law Exponents

Determining Reaction Order

The Rate Law

The Rate Law

Rate Law

Reaction mechanisms: Rate law

Integrated Rate Laws

Chemical reaction: Rate Law

The Rate law

The Rate Law: Half life

The Rate Law: Stoichiometry

The Rate Law

Chemical Kinetics

Determining Reaction Order

Determining Rate Law Exponents

Rate Law

Determining Reaction Order

Determining Rate Law Exponents