Processing mined material

1 . A method of processing mined material including a step of exposing mined material to an alternating magnetic field and directly or indirectly assessing the electrical conductivity of mined material in the alternating magnetic field in order to determine whether there is valuable material in the mined material. 2 . The method defined in claim 1 includes selecting the alternating magnetic field to induce currents in any valuable material in the mined material and cause indirect heating of valuable material and exposing the mined material to the selected alternating magnetic field and indirectly heating any valuable material and monitoring temperature increases in order to determine whether there is valuable material in the mined material. 3 . The method defined in claim 2 includes selecting the frequency of the alternating magnetic field to optimise heating of valuable materials in the mined material when compared to non-valuable materials in the mined material to facilitate discriminating between the materials in the mined material. 4 . The method defined in claim 3 wherein in the case of mined material that contains valuable chalcopyrite and non-valuable pyrite and other non-valuable materials, the method includes selecting the frequency of the alternating magnetic field to optimise heating of chalcopyrite compared to the other materials in the mined material. 5 . The method defined in claim 1 includes selecting the alternating magnetic field to induce currents in any valuable material in the mined material and exposing the mined material to the selected alternating magnetic field and monitoring an operating parameter, such as electrical current that generates the alternating magnetic field and is responsive to electrical conductivity of the mined material and/or the resonant frequency or quality factor of the system, to determine whether there is valuable material in the mined material. 6 . The method defined in claim 1 includes selecting the alternating magnetic field to cause structural alteration of the mined material. 7 . The method defined in claim 6 includes selecting the alternating magnetic field to cause structural alteration of the mined material as a result of differences in thermal expansion of minerals within particles of the mined material causing regions of high stress/strain within particles and micro-cracking or other physical changes within particles. 8 . An apparatus for processing mined material including a magnetic field station that is adapted to expose mined material to an alternating magnetic field that induces currents in mined material that are related to the electrical conductivity of valuable material in the mined material. 9 . The apparatus defined in claim 8 wherein the magnetic field station is adapted to monitor an operating parameter, such as electrical current for generating the alternating magnetic field and/or the resonant frequency or quality factor of the system, to assess the electrical conductivity of valuable material in the mined material. 10 . The apparatus defined in claim 8 includes a thermal analysis station for detecting temperature increases in mined material from the magnetic field station. 11 . The apparatus defined in claim 8 includes a sorter for sorting the mined material on the basis of the bulk temperature increase of the mined material or temperature differences between particles of the mined material. 12 . A method for recovering valuable material from mined material, including processing mined material according to the method defined in claim 1 and thereafter processing mined material containing valuable material and recovering valuable material. 13 . The method defined in claim 1 wherein the mined material is mined ore. 14 . The method defined in claim 12 wherein the mined material is mined ore.