Elements of Physical ChemistryWith its emphasis on physical principles, careful exposition of essential mathematics, and helpful pedagogy, Elements of Physical Chemistry is the ideal text for the one-semester physical chemistry course. The new edition offers even more student and instructor support, now in a beautiful full-color presentation. |
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Page xviii
... Potential - energy curves TABLE OF KEY EQUATIONS QUESTIONS AND EXERCISES Valence bond theory 14.3 Diatomic molecules Chapter 16 14.4 Polyatomic molecules Materials : macromolecules and aggregates 14.5 Promotion and hybridization 14.6 ...
... Potential - energy curves TABLE OF KEY EQUATIONS QUESTIONS AND EXERCISES Valence bond theory 14.3 Diatomic molecules Chapter 16 14.4 Polyatomic molecules Materials : macromolecules and aggregates 14.5 Promotion and hybridization 14.6 ...
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Page 4
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Page 11
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Contents
Brief contents | 1 |
The properties of gases | 15 |
The kinetic model of gases | 23 |
Real gases | 29 |
6 | 40 |
Chemical change | 63 |
7 | 78 |
Chapter 4 | 119 |
Catalysis | 295 |
326 | 368 |
CHECKLIST OF KEY IDEAS | 391 |
2 | 395 |
1 | 415 |
Chapter 18 | 419 |
3 | 463 |
441 | 480 |
90 | 128 |
7 | 134 |
QUESTIONS AND EXERCISES | 147 |
Reactions at equilibrium | 153 |
pure substances | 157 |
Quantities and units | 541 |
310 | 558 |
567 | |
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Common terms and phrases
absorption acid angular momentum atomic orbitals atoms bond brief illustration Calculate carbon cell potential chemical potential cm³ coefficient composition corresponding density Derivation dipole dm³ electron energy levels entropy enzyme equation equilibrium constant example expression first-order follows frequency gases Gibbs energy heat capacity hydrogen increases interaction internal energy ions isotherm kinetic energy kJ mol-1 liquid mechanism mixture mmol mol dm-3 mol-¹ molar concentration molar Gibbs energy molar mass mole fraction molecular orbitals molecules motion nucleus oxidation partial pressure particle partition function perfect gas phase plot potential energy protein proton quantum number radiation rate constant rate law rate of formation reactants reaction Gibbs energy resonance result rotational sample Schrödinger equation Self-test slope solid solution solvent species spectrum spin standard enthalpy standard potential standard reaction structure substance surface Table temperature thermodynamic tion transition vibrational volume wavefunction wavelength zero