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At 500 K in the presence of a copper surface, ethanol decomposes according to the equation C 2 H 5 OH ( g ) → CH 3 CHO ( g ) + H 2 ( g ) The pressure of C 2 H 5 OH was measured as a function of time and the following data were obtained: Time(s) P C 2 H 5 OH ( torr ) 0 250. 100. 237 200. 224 300. 211 400. 198 500. 185 Since the pressure of a gas is directly proportional to the concentration of gas, we can express the rate law for a gaseous reaction in terms of partial pressures. Using the above data, deduce the rate law, the integrated rate law, and the value of the rate constant, all in terms of pressure units in atm and time in seconds. Predict the pressure of C 2 H 5 OH after 900. s from the start of the reaction. ( Hint: To determine the order of the reaction with respect to C 2 H 5 OH, compare how the pressure of C 2 H 5 OH decreases with each time listing.)

At 500 K in the presence of a copper surface, ethanol decomposes according to the equation C 2 H 5 OH ( g ) → CH 3 CHO ( g ) + H 2 ( g ) The pressure of C 2 H 5 OH was measured as a function of time and the following data were obtained: Time(s) P C 2 H 5 OH ( torr ) 0 250. 100. 237 200. 224 300. 211 400. 198 500. 185 Since the pressure of a gas is directly proportional to the concentration of gas, we can express the rate law for a gaseous reaction in terms of partial pressures. Using the above data, deduce the rate law, the integrated rate law, and the value of the rate constant, all in terms of pressure units in atm and time in seconds. Predict the pressure of C 2 H 5 OH after 900. s from the start of the reaction. ( Hint: To determine the order of the reaction with respect to C 2 H 5 OH, compare how the pressure of C 2 H 5 OH decreases with each time listing.)

Solution Summary: The author explains how the differential rate law provides the rate of a reaction at specific reaction concentrations.

Chemistry

10th Edition

ISBN: 9781305957404

Author: Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher: Cengage Learning

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Textbook Question

Chapter 12, Problem 44E

At 500 K in the presence of a copper surface, ethanol decomposes according to the equation

C 2 H 5 OH ( g ) → CH 3 CHO ( g ) + H 2 ( g )

The pressure of C₂H₅OH was measured as a function of time and the following data were obtained:

Time(s)	P C 2 H 5 OH ( torr )
0	250.
100.	237
200.	224
300.	211
400.	198
500.	185

Since the pressure of a gas is directly proportional to the concentration of gas, we can express the rate law for a gaseous reaction in terms of partial pressures. Using the above data, deduce the rate law, the integrated rate law, and the value of the rate constant, all in terms of pressure units in atm and time in seconds. Predict the pressure of C₂H₅OH after 900. s from the start of the reaction. (Hint: To determine the order of the reaction with respect to C₂H₅OH, compare how the pressure of C₂H₅OH decreases with each time listing.)

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Chapter 12, Problem 43E

Chapter 12, Problem 45E

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Draw the major substitution products you would expect for the reaction shown below. If substitution would not occur at a significant rate under these conditions, check the box underneath the drawing area instead. Be sure you use wedge and dash bonds where necessary, for example to distinguish between major products. Note for advanced students: you can assume that the reaction mixture is heated mildly, somewhat above room temperature, but strong heat or reflux is not used. Cl Substitution will not occur at a significant rate. Explanation Check :☐ O-CH + Х Click and drag to start drawing a structure.

Draw the major substitution products you would expect for the reaction shown below. If substitution would not occur at a significant rate under these conditions, check the box underneath the drawing area instead. Be sure you use wedge and dash bonds where necessary, for example to distinguish between major products. Note for advanced students: you can assume that the reaction mixture is heated mildly, somewhat above room temperature, but strong heat or reflux is not used. Cl C O Substitution will not occur at a significant rate. Explanation Check + O-CH3 Х Click and drag to start drawing a structure.

✓ aw the major substitution products you would expect for the reaction shown below. If substitution would not occur at a significant rate under these conditions, check the box underneath the drawing area instead. Be sure you use wedge and dash bonds where necessary, for example to distinguish between major products. Note for advanced students: you can assume that the reaction mixture is heated mildly, somewhat above room temperature, but strong heat or reflux is not used. C Cl HO–CH O Substitution will not occur at a significant rate. Explanation Check -3 ☐ : + D Click and drag to start drawing a structure. © 2025 McGraw Hill LLC. All Rights Reserved. Terms of Use Privacy Ce

Chapter 12 Solutions

Chemistry

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