Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition
Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition
10th Edition
ISBN: 9781305957510
Author: ZUMDAHL, Steven S.; Zumdahl, Susan A.; DeCoste, Donald J.
Publisher: Cengage Learning
bartleby

Videos

Textbook Question
Book Icon
Chapter 12, Problem 97AE

Experiments during a recent summer on a number of fireflies (small beetles, Lampyridaes photinus) showed that the average interval between flashes of individual insects was 16.3 s at 21.0°C and 13.0 sat 27.8°C.

a. What is the apparent activation energy of the reaction that controls the flashing?

b. What would be the average interval between flashes of an individual firefly at 30.0°C?

c. Compare the observed intervals and the one you calculated in part b to the rule of thumb that the Celsius temperature is 54 minus twice the interval between flashes.

(a)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The average interval between flashes of individual insects at two different temperatures is given in an experiment. By using these values, the apparent activation energy of the reaction, average interval between flashes of a firefly at a given temperature is to be calculated and compare to the rule of thumb.

Concept introduction: A chemical reaction occurs inside the bodies of fireflies, which results in the flashing.  This reaction is called bioluminescence and follows first order kinetics.

The threshold energy needed to overcome to produce a chemical reaction is called activation energy.

The activation energy for bioluminescence reaction can be calculated by the following formula:

ln(k2k1)=EaR(1T11T2)

To determine: The activation energy of a chemical reaction that results in the flashing.

Answer to Problem 97AE

The activation energy is 24.1kJ/mol_ .

Explanation of Solution

Given

The average interval between the flashes of individual insects at 21°C is 16.3 s .

The average interval between the flashing of individual insects at 27.8°C is 13.0 s .

Rate constant at temperature 21°C is,

k1=1  flash16.3 s=6.13×102 s1

Rate constant at temperature 27.8°C is,

k2=1  flash13.0 s=7.69×102 s1

The activation energy is calculated using the formula,

ln(k2k1)=EaR(1T11T2)

Where,

  • k1 is rate constant at temperature T1 .
  • k2 is rate constant at temperature T2 .
  • R is universal gas constant (8.314J/Kmol) .
  • Ea is the activation energy.

Substitute the values of k1,k2,T1,T2 , and R in the above equation.

ln(7.69×102 s16.13×10=2 s1)=Ea8.314J/Kmol(1(21+273)K1(27.8+273)K)ln(7.69×102 s16.13×10=2 s1)=Ea8.314J/Kmol(1(294)K1(300.8)K)ln(1.25)=Ea8.314J/Kmol(7.69×105/K)0.223=Ea8.314J/Kmol(7.69×105/K)

Simplify the above equation.

Ea=0.223×8.314 J/Kmol7.69×105/K=24109.5J/mol

The conversion of joule (J) into kilojoules (kJ) is done as,

1J=11000kJ

Hence, the conversion of 24109.5J/mol into is,

24109.5J/mol=24109.51000kJ/mol=24.1kJ/mol_

Conclusion

The activation energy of the chemical reaction that occurs in the bodies of fireflies is 24.1kJ/mol .

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The average interval between flashes of individual insects at two different temperatures is given in an experiment. By using these values, the apparent activation energy of the reaction, average interval between flashes of a firefly at a given temperature is to be calculated and compare to the rule of thumb.

Concept introduction: A chemical reaction occurs inside the bodies of fireflies, which results in the flashing.  This reaction is called bioluminescence and follows first order kinetics.

The threshold energy needed to overcome to produce a chemical reaction is called activation energy.

The activation energy for bioluminescence reaction can be calculated by the following formula:

ln(k2k1)=EaR(1T11T2)

To determine: The average time interval between flashes of an individual firefly at 30°C .

Answer to Problem 97AE

The average time interval between flashes of an individual firefly at 30°C

is 12 s_ .

Answer: The rate constant of the chemical reaction at temperature 30°C is 8.21×10-2 s-1_ .

Explanation of Solution

Given

The average interval between the flashes of individual insects at 21°C is 16.3 s .

The activation energy is 24109.5J/mol .

Formula

The rate constant of chemical reaction is calculated using the formula,

ln(k2k1)=EaR(1T11T2)

Where,

  • k1 is rate constant at temperature T1 .
  • k2 is rate constant at temperature T2 .
  • R is universal gas constant (8.314J/Kmol) .
  • Ea is the activation energy.

Substitute the values of Ea,k2,T1,T2 , and R in the above equation.

ln(k26.13×102 s1)=24109.5J/mol8.314 J/Kmol(1(21+273)K1(30+273)K)ln(k26.13×102 s1)=24109.5J/mol 8.314 J/Kmol(1(294)K1(303)K)ln(k26.13×102 s1)=29.0×104×(1.01×104)ln(k26.13×102 s1)=0.293

Simplify the above equation.

(k26.13×102 s1)=e0.293(k26.13×102 s1)=1.340k=6.13×102 s1×1.340=8.21×10-2 s-1_

Conclusion

The rate constant for the chemical reaction at 30C is 8.21×102 s=1

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The average interval between flashes of individual insects at two different temperatures is given in an experiment. By using these values, the apparent activation energy of the reaction, average interval between flashes of a firefly at a given temperature is to be calculated and compare to the rule of thumb.

Concept introduction: A chemical reaction occurs inside the bodies of fireflies, which results in the flashing.  This reaction is called bioluminescence and follows first order kinetics.

The threshold energy needed to overcome to produce a chemical reaction is called activation energy.

The activation energy for bioluminescence reaction can be calculated by the following formula:

ln(k2k1)=EaR(1T11T2)

To determine: Comparison of observed and calculated interval and verify the value of temperature for each interval by using the rule of thumb.

Answer to Problem 97AE

All the average intervals follow the rule of thumb.

Explanation of Solution

The celsius temperature for each intervals are verified by the following formula:

T=(542(t))°C

Where,

  • T is temperature.
  • t is average time interval.

For T=21°C

Substitute the value of t in the above equation.

T=(542(16.3))°C=(5432.6)°C=21.4°C

For T=27.8°C

Substitute the value of t in the above equation.

T=(542(13.0))°C=(5426)°C=28°C

For T=30°C

Substitute the value of t in the above equation.

T=(542(12.0))°C=(5424)°C=30°C

Conclusion

All the average time intervals (observed and calculated) follow the rule of thumb as the value of celsius temperature for each interval comes to the same as given.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Chapter 12 Solutions

Student Solutions Manual for Zumdahl/Zumdahl/DeCoste?s Chemistry, 10th Edition

Ch. 12 - Why does a catalyst increase the rate of a...Ch. 12 - Define stability from both a kinetic and...Ch. 12 - Describe at least two experiments you could...Ch. 12 - Make a graph of [A] versus time for zero-, first-,...Ch. 12 - How does temperature affect k, the rate constant?...Ch. 12 - Consider the following statements: In general, the...Ch. 12 - For the reaction A+BC, explain at least two ways...Ch. 12 - A friend of yours states, A balanced equation...Ch. 12 - Provide a conceptual rationale for the differences...Ch. 12 - The rate constant (k) depends on which of the...Ch. 12 - Table 11-2 illustrates how the average rate of a...Ch. 12 - The rate law for a reaction can be determined only...Ch. 12 - The plot below shows the number of collisions with...Ch. 12 - For the reaction O2(g)+2NO(g)2NO2(g) the observed...Ch. 12 - Each of the statements given below is false....Ch. 12 - Define what is meant by unimolecular and...Ch. 12 - The type of rate law for a reaction, either the...Ch. 12 - The initial rate of a reaction doubles as the...Ch. 12 - Hydrogen reacts explosively with oxygen. However,...Ch. 12 - The central idea of the collision model is that...Ch. 12 - Consider the following energy plots for a chemical...Ch. 12 - Prob. 21QCh. 12 - Prob. 22QCh. 12 - The combustion of carbohydrates and the combustion...Ch. 12 - Would the slope of a ln(k) versus 1/T plot (with...Ch. 12 - Consider the reaction 4PH3(g)P4(g)+6H2(g) If, in a...Ch. 12 - In the Haber process for the production of...Ch. 12 - At 40C, H2O2 (aq) will decompose according to the...Ch. 12 - Consider the general reaction aA+bBcC and the...Ch. 12 - What are the units for each of the following if...Ch. 12 - The rate law for the reaction...Ch. 12 - The reaction 2NO(g)+Cl2(g)2NOCl(g) was studied at...Ch. 12 - The reaction 2I-(aq)+S2O82-(aq)I2(aq)+2SO42-(aq)...Ch. 12 - The decomposition of nitrosyl chloride was...Ch. 12 - The following data were obtained for the gas-phase...Ch. 12 - The reaction I(aq)+OCl(aq)IO(aq)+Cl(aq) was...Ch. 12 - The reaction 2NO(g)+O2(g)2NO2(g) was studied. and...Ch. 12 - The rote of the reaction between hemoglobin (Hb)...Ch. 12 - The following data were obtained for the reaction...Ch. 12 - The decomposition of hydrogen peroxide was...Ch. 12 - A certain reaction has the following general form:...Ch. 12 - The rate of the reaction NO2(g)+CO(g)NO(g)+CO2(g)...Ch. 12 - A certain reaction has the following general form:...Ch. 12 - The decomposition of ethanol (C2H5OH) on an...Ch. 12 - At 500 K in the presence of a copper surface,...Ch. 12 - The dimerization of butadiene 2C4H6(g)C8H12(g) was...Ch. 12 - The rate of the reaction O(g)+NO2(g)NO(g)+O2(g)...Ch. 12 - Experimental data for the reaction A2B+C have been...Ch. 12 - Prob. 48ECh. 12 - The reaction AB+C is known to be zero order in A...Ch. 12 - The decomposition of hydrogen iodide on finely...Ch. 12 - Prob. 51ECh. 12 - A first-order reaction is 75.0% complete in 320....Ch. 12 - The rate law for the decomposition of phosphine...Ch. 12 - DDT (molar mass = 354.49 g/mol) was a widely used...Ch. 12 - The rate law for the reaction...Ch. 12 - Prob. 57ECh. 12 - Theophylline is a pharmaceutical drug that is...Ch. 12 - You and a coworker have developed a molecule...Ch. 12 - Consider the hypothetical reaction A+B+2C2D+3E...Ch. 12 - Write the rate laws for the following elementary...Ch. 12 - A possible mechanism for the decomposition of...Ch. 12 - A proposed mechanism for a reaction is...Ch. 12 - The mechanism for the gas-phase reaction of...Ch. 12 - Is the mechanism NO+Cl2l1NOCl2NOCl2+NOl22NOCl...Ch. 12 - The reaction 2NO(g) + O2(g) 2NO2(g) exhibits the...Ch. 12 - For the following reaction profile, indicate a....Ch. 12 - Draw a rough sketch of the energy profile for each...Ch. 12 - The activation energy for the reaction...Ch. 12 - The activation energy for some reaction...Ch. 12 - The rate constant for the gas-phase decomposition...Ch. 12 - The reaction (CH3)3CBr+OH(CH3)3COH+Br in a certain...Ch. 12 - The activation energy for the decomposition of...Ch. 12 - A first-order reaction has rate constants of 4.6 ...Ch. 12 - A certain reaction has an activation energy of...Ch. 12 - Prob. 76ECh. 12 - Which of the following reactions would you expect...Ch. 12 - Prob. 78ECh. 12 - One mechanism for the destruction of ozone in the...Ch. 12 - One of the concerns about the use of Freons is...Ch. 12 - Assuming that the mechanism for the hydrogenation...Ch. 12 - The decomposition of NH3 to N2 and H2 was studied...Ch. 12 - The decomposition of many substances on the...Ch. 12 - Prob. 84ECh. 12 - A popular chemical demonstration is the magic...Ch. 12 - Prob. 86ECh. 12 - Consider the following representation of the...Ch. 12 - The reaction H2SeO3(aq) + 6I-(aq) + 4H+(aq) Se(s)...Ch. 12 - Consider two reaction vessels, one containing A...Ch. 12 - Sulfuryl chloride (SO2Cl2) decomposes to sulfur...Ch. 12 - For the reaction 2N2O5(g)4NO2(g)+O2(g) the...Ch. 12 - Experimental values for the temperature dependence...Ch. 12 - At 620. K butadiene dimerizes at a moderate rate....Ch. 12 - For a first order gas phase reaction A products,...Ch. 12 - Cobra venom helps the snake secure food by binding...Ch. 12 - Iodomethane (CH3I) is a commonly used reagent in...Ch. 12 - Experiments during a recent summer on a number of...Ch. 12 - The activation energy of a certain uncatalyzed...Ch. 12 - Consider the following initial rate data for the...Ch. 12 - Consider a hypothetical reaction between A and B:...Ch. 12 - Consider the reaction 3A+B+CD+E where the rate law...Ch. 12 - The thiosulfate ion (S2O32) is oxidized by iodine...Ch. 12 - The reaction A(aq)+B(aq)products(aq) was studied,...Ch. 12 - A certain substance, initially present at 0.0800...Ch. 12 - A reaction of the form aAProducts gives a plot of...Ch. 12 - A certain reaction has the form aAProducts At a...Ch. 12 - Which of the following statement(s) is( are) true?...Ch. 12 - Consider the hypothetical reaction A2(g) + B2(g) ...Ch. 12 - Experiments have shown that the average frequency...Ch. 12 - Consider a reaction of the type aA products, in...Ch. 12 - A study was made of the effect of the hydroxide...Ch. 12 - Two isomers (A and B) of a given compound dimerize...Ch. 12 - The reaction NO(g)+O3NO2(g)+O2(g) was studied by...Ch. 12 - Prob. 114CPCh. 12 - In the gas phase, the production of phosgene from...Ch. 12 - Most reactions occur by a series of steps. The...Ch. 12 - You are studying the kinetics of the reaction...Ch. 12 - The decomposition of NO2(g) occurs by the...Ch. 12 - The following data were collected in two studies...Ch. 12 - Consider the following hypothetical data collected...Ch. 12 - Consider the hypothetical reaction A+B+2C2D+3E In...Ch. 12 - Hydrogen peroxide and the iodide ion react in...Ch. 12 - Sulfuryl chloride undergoes first-order...Ch. 12 - Upon dissolving InCl(s) in HCl, In+(aq) undergoes...Ch. 12 - The decomposition of iodoethane in the gas phase...Ch. 12 - Consider the following reaction: CH3X+YCH3Y+X At...
Knowledge Booster
Background pattern image
Chemistry
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, chemistry and related others by exploring similar questions and additional content below.
Similar questions
SEE MORE QUESTIONS
Recommended textbooks for you
Text book image
Chemistry
Chemistry
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Cengage Learning
Text book image
Chemistry: An Atoms First Approach
Chemistry
ISBN:9781305079243
Author:Steven S. Zumdahl, Susan A. Zumdahl
Publisher:Cengage Learning
Text book image
Chemistry
Chemistry
ISBN:9781133611097
Author:Steven S. Zumdahl
Publisher:Cengage Learning
Text book image
Chemistry for Engineering Students
Chemistry
ISBN:9781337398909
Author:Lawrence S. Brown, Tom Holme
Publisher:Cengage Learning
Text book image
Chemistry: The Molecular Science
Chemistry
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:Cengage Learning
Text book image
Chemistry for Engineering Students
Chemistry
ISBN:9781285199023
Author:Lawrence S. Brown, Tom Holme
Publisher:Cengage Learning
Kinetics: Initial Rates and Integrated Rate Laws; Author: Professor Dave Explains;https://www.youtube.com/watch?v=wYqQCojggyM;License: Standard YouTube License, CC-BY