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Chapter 12: Q82E. (page 715)

For each of the following reaction diagrams, estimate the activation energy \(\left( {{E_a}} \right)\) of the reaction:

Short Answer

Expert verified

The activation energy \(\left( {{E_a}} \right)\) of the reaction (a) is 25 kJ. The activation energy \(\left( {{E_a}} \right)\) of the reaction (b) is 10 kJ.

Step by step solution

01

Definition of Catalyst, Activation Energy

Catalysts are substances which increase the rate of the reaction without getting used up by themselves while decreasing the activation energy of the reaction. Activation energy is the energy difference between the initial reagents and the transition state.

  • A catalyst increases the rate of reaction.
  • Catalyst accelerates the rate of a reaction by decreasing the activation energy.
  • Catalysts may provide different reaction mechanisms involving extra steps in the reaction and lower the activation energy, simultaneously increasing the reaction rate.
  • Catalyst is regenerated during the reaction.
02

Estimation of Activation energy for Reaction Diagram (b)

We know that activation energy is the energy difference between the initial reagents and the transition state (it is the state where the energy is maximum on the reaction coordinate diagram).

In reaction (a), the reagents are at 10 kJ, and the transition state is at 35 kJ so that the activation energy can be calculated as:\({{\rm{E}}_{\rm{a}}}{\rm{ = 35 kJ - 10 kJ = 25 kJ}}\)

03

Estimation of Activation energy for Reaction Diagram (b)  

Activation energy is the energy difference between the initial reagents and the transition state (it is the state where the energy is maximum on the reaction coordinate diagram).

In the reaction (a), the reagents are at 10 kJ, and the transition state is at 20 kJ so that the activation energy can be calculated as:\({{\rm{E}}_{\rm{a}}}{\rm{ = 20 kJ - 10 kJ = 10 kJ}}\)Thus, the activation energy\(\left( {{E_a}} \right)\)of the reaction (a) a is 25 kJ and reaction (b) is 10 kJ.

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Most popular questions from this chapter

Acetaldehyde decomposes when heated to yield methane and carbon monoxide according to the equation: \({\bf{C}}{{\bf{H}}_{\bf{3}}}{\bf{CHO}}\)(g) ⟶\({\bf{C}}{{\bf{H}}_{\bf{4}}}\)(g) +\({\bf{CO}}\)(g)

Determine the rate law and the rate constant for the reaction from the following experimental data:

Trial

(\({\bf{C}}{{\bf{H}}_{\bf{3}}}{\bf{CHO}}\)) (mol/L)

\(\frac{{ - \Delta \left( {{\bf{C}}{{\bf{H}}_{\bf{3}}}{\bf{CHO}}} \right)}}{{\Delta t}}\)(mol )(Ls−1)

1.

1.75 × 10−3

2.06 × 10−11

2.

3.50 × 10−3

8.24 × 10−11

3.

7.00 × 10−3

3.30 × 10−10

Under certain conditions, the decomposition of ammonia on a metal surface gives the following data:

Determine the rate law, the rate constant, and the overall order for this reaction.

Recently, the skeleton of King Richard III was found under a parking lot in England. If tissue samples from the skeleton contain about 93.79% of the carbon-14 expected in living tissue, what year did King Richard III die? The half-life for carbon-14 is 5730 years.

The rate constant for the rate of decomposition of \({{\bf{N}}_{\bf{2}}}{{\bf{O}}_{\bf{5}}}\)to\({\bf{NO}}\) and \({{\bf{O}}_{\bf{2}}}\)in the gas phase is 1.66 L/mol/s at 650 K and 7.39 L/mol/s at 700 K:

\({\bf{2}}{{\bf{N}}_{\bf{2}}}{{\bf{O}}_{\bf{5}}}{\bf{(g) - - - 4NO(g) + 3}}{{\bf{O}}_{\bf{2}}}{\bf{(g)}}\)

Assuming the kinetics of this reaction are consistent with the Arrhenius equation, calculate the activation energy for this decomposition.

The reaction of compound A to give compounds C and D was found to be second-order in A. The rate constant for the reaction was determined to be 2.42 L/mol/s. If the initial concentration is 0.500 mol/L, what is the value of t1/2?
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