Chemistry: An Atoms First Approach
Chemistry: An Atoms First Approach
2nd Edition
ISBN: 9781305079243
Author: Steven S. Zumdahl, Susan A. Zumdahl
Publisher: Cengage Learning
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Chapter 7, Problem 34E

Calculate the internal energy change for each of the following.

a. One hundred (100.) joules of work is required to compress a gas. At the same time, the gas releases 23 J of heat.

b. A piston is compressed from a volume of 8.30 L to 2.80 L against a constant pressure of 1.90 atm. In the process, there is a heat gain by the system of 350. J.

c. A piston expands against 1.00 atm of pressure from 11.2 L to 29.1 L. In the process, 1037 J of heat is absorbed.

(a)

Expert Solution
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Interpretation Introduction

Interpretation: The internal energy change for given cases are calculated.

Concept Introduction:  Internal energy is a total energy of a system, consists of kinetic, potential energies. The internal energy change is accompanied by the heat flow or as work done on or by a system.

Formula:

                                           ΔE=q±w......(1)

                                                   q is a heat

                                                    w is a work

Work done by the system means heat and work will be

                                        ΔE=q-w......(2)

Work done on the system means heat and work will be

                                        ΔE=q+w......(3)

                                          w=-PΔV......(4)

                                                  P is a constant pressure

                                                 ΔV is a volume change

Answer to Problem 34E

Internal energy   ΔE=77J

Explanation of Solution

Given data:

                    Relesed heat q (a) =23J

                    Compression work (a) w=100J

                    Volume change ΔV (b)= (2.80+8.30) =-5.50L

                    Constant pressure (b) =1.90atm

                    Heat gained q (b) =350J

                    Volume change ΔV (c)= (29.1-11.2) =17.90 L

                    Constant pressure (c) =1.00atm

                    Heat absorbed q (c) =1037J

The internal energy of (a).

                                                    ΔE=-23J+100J

                                                      ΔE=77J

  • The given values are plugging to the equation 4 to get internal energy of (a). The internal energy of (a) is 77J .

(b)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The internal energy change for given cases are calculated.

Concept Introduction:  Internal energy is a total energy of a system, consists of kinetic, potential energies. The internal energy change is accompanied by the heat flow or as work done on or by a system.

Formula:

                                           ΔE=q±w......(1)

                                                   q is a heat

                                                    w is a work

Work done by the system means heat and work will be

                                        ΔE=q-w......(2)

Work done on the system means heat and work will be

                                        ΔE=q+w......(3)

                                          w=-PΔV......(4)

                                                  P is a constant pressure

                                                  ΔV is a volume change

Answer to Problem 34E

Internal energy   ΔE=1408.6J

Explanation of Solution

Explanation

To calculate the internal energy of (a).

                                                   Work =-1.90×(2.80-8.30)

                                                             =10.45atm

                                       For in Joules = 10.45×101.3J

                                                              =1058.6J

                                  Internal energy =1058.6+350

                                                             =1408.6J

  • The given volume change and constant pressure are plugging in to equation (4)to get  work of the piston and this work can added with given heat to get internal energy of (b).
  • The internal energy of (b) is 1408.6J .

(c)

Expert Solution
Check Mark
Interpretation Introduction

Interpretation: The internal energy change for given cases are calculated.

Concept Introduction:  Internal energy is a total energy of a system, consists of kinetic, potential energies. The internal energy change is accompanied by the heat flow or as work done on or by a system.

Formula:

                                           ΔE=q±w......(1)

                                                   q is a heat

                                                    w is a work

Work done by the system means heat and work will be

                                        ΔE=q-w......(2)

Work done on the system means heat and work will be

                                        ΔE=q+w......(3)

                                          w=-PΔV......(4)

                                                  P is a constant pressure

                                                 ΔV is a volume change

Answer to Problem 34E

Internal energy  ΔE=776.27J

Explanation of Solution

  • The given volume change and constant pressure are plugging in to equation (4)to get  work of the piston and this work can added with given heat to get internal energy of (c).
  • The internal energy of (b) is 776.27J .
  • To calculate the internal energy of (c).
  •                                              Work =-1.00×(29.1-11.2)

                                                            =17.9atm

                                      For in Joules = 17.90×101.3J

                                                            =1813.27J

  •                               Internal energy =1813.27-1037 =776.27J

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Chapter 7 Solutions

Chemistry: An Atoms First Approach

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