CONTENTS

pp.：  1 – 9

PREFACE

pp.：  9 – 21

1 INTRODUCTION

pp.：  21 – 25

2 MATHEMATICAL PREPARATION FOR THERMODYNAMICS

pp.：  25 – 33

3 THE FIRST LAW OF THERMODYNAMICS

pp.：  33 – 53

4 ENTHALPY, ENTHALPY OF REACTION, AND HEAT CAPACITY

pp.：  53 – 67

5 APPLICATIONS OF THE FIRST LAW TO GASES

pp.：  67 – 105

6 THE SECOND LAW OF THERMODYNAMICS

pp.：  105 – 135

7 EQUILIBRIUM AND SPONTANEITY FOR SYSTEMS AT CONSTANT TEMPERATURE

pp.：  135 – 183

8 APPLICATION OF THE GIBBS FUNCTION AND THE PLANCK FUNCTION TO SOME PHASE CHANGES

pp.：  183 – 217

9 THERMODYNAMICS OF SYSTEMS OF VARIABLE COMPOSITION

pp.：  217 – 235

10 MIXTURES OF GASES AND EQUILIBRIUM IN GASEOUS MIXTURES

pp.：  235 – 251

11 THE THIRD LAW OF THERMODYNAMICS

pp.：  251 – 283

12 APPLICATION OF THE GIBBS FUNCTION TO CHEMICAL CHANGES

pp.：  283 – 305

13 THE PHASE RULE

pp.：  305 – 327

14 THE IDEAL SOLUTION

pp.：  327 – 343

15 DILUTE SOLUTIONS OF NONELECTROLYTES

pp.：  343 – 361

16 ACTIVITIES, EXCESS GIBBS FUNCTIONS, AND STANDARD STATES FOR NONELECTROLYTES

pp.：  361 – 381

17 DETERMINATION OF NONELECTROLYTE ACTIVITIES AND EXCESS GIBBS FUNCTIONS FROM EXPERIMENTAL DATA

pp.：  381 – 409

18 CALCULATION OF PARTIAL MOLAR QUANTITIES AND EXCESS MOLAR QUANTITIES FROM EXPERIMENTAL DATA: VOLUME AND ENTHALPY

pp.：  409 – 431

19 ACTIVITY, ACTIVITY COEFFICIENTS, AND OSMOTIC COEFFICIENTS OF STRONG ELECTROLYTES

pp.：  431 – 463

20 CHANGES IN GIBBS FUNCTION FOR PROCESSES IN SOLUTIONS

pp.：  463 – 495

21 SYSTEMS SUBJECT TO A GRAVITATIONAL OR A CENTRIFUGAL FIELD

pp.：  495 – 523

22 ESTIMATION OF THERMODYNAMIC QUANTITIES

pp.：  523 – 535

23 CONCLUDING REMARKS

pp.：  535 – 551

APPENDIX A PRACTICAL MATHEMATICALTECHNIQUES

pp.：  551 – 555

INDEX

pp.：  555 – 569

LastPages

pp.：  569 – 587