P1: OSO
ind JWBS043-Rogers September 24, 2010 12:57 Printer Name: Yet to Come
INDEX 373
Gaussian probability density distributions,
10
Gaussian, 69
GAUSSIAN©C, 69, 244
HF calculation ofE, 273
Gibbs chemical potential, 133, 192
Gibbs free energy, 84, 112
and the partition function, 112
of water, 126
Gibbs thermodynamic function, 76
Gibbs–Helmholtz equation, 89
Glass electrode, 230
Glucose, 69
Gordon, 323
Graham’s Law of effusion, 6
molecular weight (molar mass)
determination, 6
Group additivity, 62, 306
hydrogen atom counting, 63
n-octane, 69
GUI, 310
Half cells, 221
Half-cell potentials, 222
Half-time, 146
Hamiltonian operator, 237, 251
Harmonic oscillator, 287
Hartree (unit), 272
Hartree and Fock, 239
Hartree equations, 242
Hartree independent electron method, 240
Hartree product, 263
Hartree-Fock limit, 336
Heat capacities andγfor selected real
gases, 48
Heat capacity, 44, 48, 70
as a function of temperature, 50, 168
of an ideal gas, 48
Heat capacity of liquids and solids, 168
Heat death, 73
Heat transfer, 77
Heisenberg, 237
Heitler and London, 238, 239
Helium, 81, 243, 274
Hemolytic cleavage, 348
Henry’s law, 186
Hermitian operators, 269
Hess’s law, 61
Heteroatoms: oxygen, 332
Hexa-1,3,5,-triene, 81
Hey, Let’s Make a Perpetual Motion
Machine!, 38
HF, 329
Higher molecular orbital calculations, 322
Hittorf cell, 211, 216
HOMO, 285, 292
Hooke’s law, 289
Hooke’s potential well, 289
Huckel, 271
Hydrogen atom, 244, 258, 325
Hydrogen emission spectrum, 236
Hydrogen half-cell, 222
Hydrogen molecule ion, 319
bonding and antibonding orbitals, 321,
322
Hydrogen molecule, 329
Hydrogen spectrum, 235
Hydrogen-like atoms, 260
for an electron in the 3s orbital, 262
higher exact solutions, 260
radial probability density, 262
roots of the radial 3s wave functions, 261
the first six wave functions for hydrogen,
261
the first three s wave functions for
hydrogen (simplified form), 261
Hyper space, 3-, 4-, etc., 10
Ideal gas laws, 1
Ideal solutions, 182
Independent variables, 4, 125–126
coexistence curves, 125
Influence of temperature on rate, 156
Intensive variable, 6
Intermolecular attraction at an air–water
interface, 166
Internal and Cartesian coordinates, 334
Interplanar (crystal) distances, 173
Invasive crabs, 163
Inversion of optical activity, 352
Inversion temperature as a function of
pressure, 47
Iodine vapor, 122, 123
Ion activities, 213
Ion mobilities, 209, 210, 211
Ion speed, 210
Ionic character, 297
Ionic strength, 214