N.S. Kharlamova

For the description of a three-dimensional magnetic field it was offered to use integrative biotropic parameter - hodograph a vector of a magnetic induction. Considering importance hodograph a vector of a magnetic induction as biotropic 3D-magnetic field parameter, in work there was an object in view to carry out the analysis and the account of the factors influencing accuracy of the task of a trajectory of movement of the end of a vector of a magnetic induction in space. At practical realization of a way of formation of a 3D-magnetic field accuracy of a spatial curve hodograph a vector of a magnetic induction will be influenced by the methodical errors connected with a digital control by currents, the tool error connected with technology and quality of manufacturing of the 3D-former of a magnetic field, and also heterogeneity of a magnetic field which is caused by way of formation of a field external in relation to a source. For an estimation of accuracy of reproduction in time and space hodograph a vector of a magnetic induction it was offered to use errors of amplitude, a direction of a vector and an error of hodograph-s length. The carried out analysis of the factors influencing accuracy of the task of a curve hodograph of a vector of a magnetic induction, will allow to consider them at practical realization and to carry out influence by a 3D-magnetic field with an optimum configuration. Offered in article of transformation of coordinates of a vector of a magnetic induction application at formation bioadequate magnetotherapy the influence reproducing an integrated vector of electric excitation of heart can find