A numerical method for calculating the spatial distribution function of quantum statistical thermodynamics

An explicit formula applicable to any temperature range is derived for calculating the potential ener\_gy as a function of position when the probabhty density of a quantum system is given as a function of position and temperature.

A new numerical method for solving the integral equation of adsorption with respect to the energy distribution function is proposed on the basis of the Stieltjes integral transformation and by utilizing smoothing cubic spline functions. This method is tested by using the model adsorption isotherms r

## Abstract The application of numerical methods for the calculation of the molecular weight distribution of living ionic polymerization, carried out in the presence of monofunctional and polyfunctional transfer agents, is described. The methods used include the numerical solution of a system of di

A numerical method for the direct computation of the particle densities, mass density, enthalpy and specific heat at constant pressure of a monatomic ionized gas in thermodynamic equilibrium is presented. This method permits calculation of the thermodynamic properties without iteration or numerical