Orbital and pericentric reference systems in the schwarzschild field

The relationships between the osculating orbital elementa for a family of solutions of the general relativistic Schwarzschild problems are developed. These relationships provide a method for evaluating orbital elements in different Schwarzschild coordinate systems without the necessity of Jitting to

TJsing the jellium model the behaviour of electronic propertics in solids in extcriial gravitational fields is investigated. The charge carriers are influenced by the gravitational field both directly and via the gravitationally induced lattice deformations. As an example me treit London superconduc

Akitio localized molecular orbitals are used to evaluate the diamagnetic shielding3 and the electiic field gadients \_' in hydrogen bcnded,systems. Recently, localized rno&dar orbitals (IMO'S)' Table 1 Law been determined in hydrogen bonded systems in Geometries and :nergies.

Mass spectra of the fluorosulfates could not be obtained, since decomposition and polymerisation took place.

Pad6 and quasi-Pad6 approximants are used to construct homo-and heteroclinic orbits of non-linear systems. By using the convergence condition for Pad6 approximants and the conditions at infinity the problem can be solved with sufficiently high accuracy. Actual computations are carried out for the no