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Introduction with J Fischer
Models for the Liquid State with F Weissenbock
Pair Distribution Function with J Fischer
11 other sections not shown
12/6 potential absorption acid angle approximation argon associated assumption atoms average behaviour calculated cell Chem clusters collisions configuration consider constant correlation function corresponding critical point curve denotes density dependence derived determined dielectric dielectric relaxation dimer dipole distance electron ensemble entropy equation equilibrium evaluation expansion experimental factor Faraday Soc fluctuations fluid force Fourier transform free energy gases given gives hard sphere heat capacity hydrogen bonds integral interaction energy intermolecular kinetic lattice linear liquid melting molecular dynamics molecules momentum monomers Monte Carlo motion nearest neighbour neutron scattering obtained orientation pair distribution function pair potential parameter particles partition function perturbation phase Phys potential energy pressure quantities random Rayleigh scattering relation relaxation repulsive rotational shown in fig solid spherical Statistical Mechanics temperature term theory transition transport coefficients triple point ultrasonic values virial coefficients volume change X-ray zero