Magnetic calculation of rotating machinery using the moment method

We have calculated the rotational magnetic moment at equiiiirium nuclear distance for the hydrogen molecule by m&s of a variation-perturbation method. We obtain a vaIue of 0.89471 nuclear magnetons which should be mmp~ed with the experimental result of 0.88291 nuclw magnetons.

We ulculate the rotatlonnl madnew moments and the correspondmEg\_factors for water and ammoma Our results are g,, = 0.39i,g,,,, ; 0 769 andxiz = 0 345 for water and gXx = g experImental values a.r'eilx = 0 , = 0 69 and gzz = 0 51 for ammonla The 585,g for ammoma yy = 0 742 and gzz = 0 666 for w,% an

A priori prediction of vibrational magnetic dipole transition moments and vibrational strengths requires the calculation of the overlap integral of the derivatives of the electronic wavefunction with respect to nuclear displacement and an external magnetic field. The efficient calculation of this in