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Molecular Distribution Functions and the Equation
The Pair Potential Function for NonConducting
The Pair Potential Function for Liquid Metals
12 other sections not shown
amplitude approximation argon assumed atom behaviour Brownian motion calculated cell chemical potential classical limit cluster expansion co-operative modes compared comparison component compressibility correlation function Critical exponent critical point curve defined definition denotes diffusion constant discussion distribution function effect elastic elastic moduli entropy equilibrium example expansion experimental data expression fluctuations force Fourier transform frequency friction constant given gives Gs(r illustrated integral interaction interatomic macroscopic measured metal method molecular molecules momentum neutron scattering normal obtained oscillator pair potential pair theory parameters particle peak phonons potential energy pressure properties pseudo-potential quantum liquids quantum mechanical radiation ratio region result scattering law scattering length Section shown in Fig shows sodium solid spectral density SS(Q stress correlation superfluid Symbols for Chapter Table temperature term in equation theoretical thermal conductivity tion triple point values of Q vector viscosity coefficient volume wave function wave number z(co zero