8th Edition

ISBN: 9781305856745

Author: DECOSTE

Publisher: CENGAGE LEARNING - CONSIGNMENT

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Chapter 10, Problem 29E

The molar heat capacities for carbon dioxide at 298.0 Kare
C v = 28.95 J K − 1 mol − 1 C p = 37.27 J K − 1 mol − 1
The molar entropy of carbon dioxide gas at 298.0 K and1.000 atmis 213 .64 J K -1 mol -1 .
a. Calculate the energy required to change the temperatureof 1.000 mole of carbon dioxide gas from298.0 K to 350.0 K, both at constant volume and atconstant pressure.
b. Calculate the molar entropy of CO 2 ( g ) at 350.0 Kand 1.000 atm.
c. Calculate the molar entropy of CO 2 ( g ) at 350.0 Kand 1.174 atm.

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Chapter 10, Problem 28E

Chapter 10, Problem 30E

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The molar heat capacities for carbon dioxide at 298.0 K are shown below. C₁ = 28.95 J K-¹ mol-¹1 = 37.27 J K-¹ mol-¹ Ср The molar entropy of carbon dioxide gas at 298.0 K and 1.000 atm is 213.64 J K¯¹ mol-¹. (a) Calculate the energy required to change the temperature of 1.000 mole of carbon dioxide gas from 298.0 K to 345.0 K, both at constant volume and at constant pressure. constant volume kJ kJ constant pressure (b) Calculate the molar entropy of CO₂(g) at 345.0 K and 1.000 atm. JK-¹ mol-1 (c) Calculate the molar entropy of CO₂(g) at 345.0 K and 1.179 atm. JK-¹ mol-1

The molar heat capacities for carbon dioxide at 298.0 K are shown below. C₁ = 28.95 J K-¹ mol-1 C₂ = 37.27 J K-¹ mol-1 The molar entropy of carbon dioxide gas at 298.0 K and 1.000 atm is 213.64 J K-1 mol-1. (a) Calculate the energy required to change the temperature of 1.000 mole of carbon dioxide gas from 298.0 K to 340.0 K, both at constant volume and at constant pressure. constant volume kJ kJ constant pressure (b) Calculate the molar entropy of CO₂(g) at 340.0 K and 1.000 atm. JK-1 mol-1 (c) Calculate the molar entropy of CO₂(g) at 340.0 K and 1.201 atm. JK-¹ mol-1

The molar heat capacities for carbon dioxide at 298.0 K are shown below. C = 28.95 J K-1 mol-1 Cp = 37.27 J K-1 mol-1 The molar entropy of carbon dioxide gas at 298.0 K and 1.000 atm is 213.64 J K-1 mol-¹. (a) Calculate the energy required to change the temperature of 1.000 mole of carbon dioxide gas from 298.0 K to 340.0 K, both at constant volume and at constant pressure. constant volume kJ constant pressure kJ (b) Calculate the molar entropy of CO₂(g) at 340.0 K and 1.000 atm. JK-1 mol-1 (c) Calculate the molar entropy of CO₂(g) at 340.0 K and 1.139 atm. JK-1 mol-1

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