Method and system for flotation separation in a magnetically controllable and steerable medium

What is claimed is: 1. Apparatus comprising: a processor comprising an upper part and a lower part; and a magnetic field generator configured to generate a magnetic field in the upper part, the processor configured to receive an aqueous mixture in the upper part; receive an attachable medium in the lower part, the aqueous mixture comprising valuable material and unwanted material, wherein the aqueous mixture comprises a magnetically responsive surfactant containing magneto-active anions; cause the attachable medium to contact with the valuable material in the aqueous mixture so as to allow the valuable material to attach to the attachable medium; and form a magnetically responsive medium comprising at least part of the attachable medium and the aqueous mixture, the magnetically responsive medium arranged to interact with the magnetic field for mixing, wherein the upper part comprises a feed to receive the magnetically responsive medium. 2. Apparatus according to claim 1 , wherein said at least part of the attachable medium comprises valuable material attached thereto to form an enriched attachable medium, and wherein the magnetically responsive medium comprises the enriched attachable medium and the magnetically responsive surfactant in a froth formed in the upper part of the processor, and the magnetic field is arranged to stir the froth for said mixing. 3. Apparatus according to claim 1 , wherein the attachable medium comprises air bubbles, at least some of the air bubbles comprising valuable material attached thereto to form enriched air bubbles, wherein the magnetically responsive medium comprises at least some of the enriched air bubbles and at least part of the magnetically responsive surfactant, said processor further configured to transport the enriched air bubbles away from the aqueous mixture. 4. Apparatus according to claim 1 , wherein the attachable medium comprises air, said processor further configured to mix the air with the aqueous mixture so as to form air bubbles in the aqueous mixture, at least some of the air bubbles comprising valuable material attached thereto to form enriched air bubbles, wherein the aqueous mixture comprises magnetic particles mixed in the aqueous mixture, and the magnetically responsive medium comprises at least some of the enriched air bubbles and the aqueous mixture, said processor further configured to transport the enriched air bubbles away from the aqueous mixture. 5. Apparatus according to claim 1 , wherein the attachable medium comprises synthetic bubbles, at least some of synthetic bubbles comprising valuable material attached thereto to form enriched synthetic bubbles, wherein the magnetically responsive medium comprises at least some of the enriched synthetic bubbles and part of the magnetically responsive surfactant, said processor further configured to transport the enriched synthetic bubbles away from the aqueous mixture. 6. Apparatus according to claim 1 , wherein the attachable medium comprises synthetic bubbles, at least some of synthetic bubbles comprising valuable material attached thereto to form enriched synthetic bubbles, wherein the aqueous mixture comprises magnetic particles dispersed therein, wherein the magnetically responsive medium comprises at least some of the enriched synthetic bubbles and part of the aqueous mixture, said processor further configured to transport the enriched synthetic bubbles away from the aqueous mixture. 7. Apparatus according to claim 1 , wherein the attached medium comprises synthetic bubbles, at least some of synthetic bubbles comprising valuable material attached thereto to form enriched bubbles, wherein the synthetic bubbles comprise a magnetic material responsive to the magnetic field, said processor further configured to transport the enriched synthetic bubbles away from the aqueous mixture. 8. Apparatus according to claim 1 , wherein the magnetic field generator comprises one or more electrically conductive coils arranged to conduct electric current for generating the magnetic field. 9. A cell or column comprising: an upper part and a lower part, the upper part configured to receive an aqueous mixture, the lower part configured to receive an attachable medium, the aqueous mixture comprising valuable material and unwanted material, and a magnetically responsive surfactant containing magneto-active anions, the cell or column configured to cause the attachable medium to contact with the valuable material in the aqueous mixture so as to allow the valuable material to attach to the attachable medium, wherein at least part of the attachable medium and part of the aqueous mixture form a magnetically responsive medium arranged to interact with a magnetic field in the upper part for mixing, wherein the upper part comprises a feed to receive the magnetically responsive medium. 10. The cell or column according to claim 9 , wherein the attachable medium comprises air bubbles, at least some of the air bubbles comprising valuable material attached thereto to form enriched air bubbles in the upper part, wherein the magnetically responsive medium comprises at least some of the enriched air bubbles and at least part of the magnetically responsive surfactant, said cell or column further configured to transport the enriched air bubbles away from the aqueous mixture. 11. The cell or column according to claim 9 , wherein the attachable medium comprises air, the cell or column further configured to mix the air with the aqueous mixture so as to form air bubbles in the aqueous mixture, at least some of the air bubbles comprising valuable material attached thereto to form enriched air bubbles in the upper part, wherein the magnetically responsive medium comprises at least some of the enriched air bubbles and the aqueous mixture, said cell or column further configured to transport the enriched air bubbles away from the aqueous mixture. 12. The cell or column according to claim 9 , wherein the attachable medium comprises air bubbles, at least some of air bubbles comprising valuable material attached thereto to form enriched air bubbles, wherein the aqueous mixture comprises magnetic particles dispersed therein, and wherein the magnetically responsive medium comprises at least some of the enriched air bubbles and at least some of the magnetic particles, said cell or column further configured to transport the enriched air bubbles away from the aqueous mixture. 13. The cell or column according to claim 9 , wherein the attachable medium comprises synthetic bubbles, at least some of synthetic bubbles comprising valuable material attached thereto to form enriched synthetic bubbles, wherein the magnetically responsive medium comprises at least some of the enriched synthetic bubbles and part of the magnetically responsive surfactant, said cell or column further configured to transport the enriched synthetic bubbles away from the aqueous mixture. 14. The cell or column according to claim 9 , wherein the attachable medium comprises synthetic bubbles, at least some of synthetic bubbles comprising valuable material attached thereto to form enriched synthetic bubbles, wherein the aqueous mixture comprises magnetic particles dispersed therein, wherein the magnetically responsive medium comprises at least some of the enriched synthetic bubbles and part of the aqueous mixture, said cell or column further configured to transport the enriched synthetic bubbles away from the aqueous mixture. 15. The cell or column according to claim 9 , wherein the attached medium comprises synthetic bubbles, and at least some of synthetic bubbles comprise v